A fluid containment system comprises a frame, a tank, a rear suspension system, a front lifting assembly, a cooperative coupling mechanism adapted to couple the fluid containment system to a vehicle, and a rear lifting assembly. The front lifting assembly is adapted to lift the front of the tank. The rear lifting assembly is adapted to lift the rear of the tank. The fluid containment system comprises a working condition and a mobile condition. A lower portion of the frame rests on a surface when the mobile fluid containment system is in the working condition. The lower portion of the frame is elevated with respect to the surface when the mobile fluid containment system is in the mobile condition. The fluid containment system is adapted to be towed by the vehicle when the cooperative coupling mechanism is coupled to the vehicle and the fluid containment system is in the mobile condition.

A vehicle including a controlled vertical position chassis, in order to be able to be moved into a low position supported on the ground, and, associated with each wheel, a suspension arm, an arm actuator, and a safety device capable of limiting the accidental lowering of the chassis, the device being able to adopt an active state wherein the rotation of the suspension arm can be limited, the device including an actuator, a cylinder of which is mounted on the chassis and a piston of which is mounted on the suspension arm, or vice versa, the actuator defining a first chamber connected to a first and a second fluid passage through the cylinder, the second passage being connected to a first fluid pipe fitted with a safety valve.

A pneumatic automotive height adjuster assembly provides at least one bag removably connected to a vehicle having a frame. The at least one bag is configured to adjust a height of the frame. An air supply line has a supply end and a discharge end. The discharge end is in fluid communication with each of the at least one bag. The air supply is configured to provide air to inflate the at least one bag. A switch is in fluid communication with the supply end of the air supply line. The switch has a first discharge, a second discharge, and a switch input. A leveling valve is in fluid communication with the first discharge. The air supply line is in fluid communication with the second discharge. An air supply is in fluid communication with the leveling valve and the switch input.

A transportable fire training apparatus includes a trailer frame having a rear raised section at a rear end of the trailer frame and an unraised section at a middle portion of the trailer frame, a shell attached to the trailer frame and partitioned into a plurality of training rooms, a rear multi-axle wheel set disposed below, and attached to, the rear raised section of the trailer frame via an air ride suspension system that raises the trailer frame relative to the a rear multi-axle wheel set in response to pressurization of the air ride suspension system. The unraised section of the trailer frame rides substantially above the ground when the air ride suspension system is in a pressurized state and rests on the ground when the air ride suspension system is in an unpressurized state. A method for deploying and using the transportable fire training apparatus is also disclosed herein.

Disclosed herein is an adjustable suspension mount system that includes a subframe for attachment to a suspension device of a vehicle. The system further includes a first and second mount link for attaching the subframe to a frame of a vehicle. A positioning device for attaching to the frame of the vehicle and the subframe is also included. The adjustable suspension mount system may also attach to a second suspension device of the vehicle as well as other further suspension devices. Further disclosed is a vehicle having the adjustable suspension mount system, a kit for providing the adjustable suspension mount system, and methods of using the adjustable suspension mount system for raising and lowering a vehicle.

The present invention provides an independent rear suspension system for low-floor bus for reducing the distance between the floor and ground, offering easy access for passengers and offering a wide space between the wheel arches.

An autonomous guided vehicle comprising a platform adapted to carry load thereon in a working position; a plurality of suspension devices connected to the platform, each suspension device having a sensor and an actuator; and a plurality of wheels associated with the suspension devices; wherein a first wheel is associated with a first suspension device such that the sensor of the first suspension device is adapted to provide a sign when a relative position of the first wheel and the platform is altered.

A transport assembly for a shipping module which has a chassis; a towing element secured to the chassis; two opposed wheels mounted on the chassis; a support assembly secured to the chassis and configured to be positioned in a mating relationship with a shipping module proximate to a lower transverse edge of the shipping module; means for removably securing the support assembly to a shipping module; and a displacement actuator secured between the chassis and the cradle, said displacement actuator for varying the ground clearance of a shipping module when secured to the support assembly.

A wall component and other components for a building structure wherein the wall component has a spanning beam spanning the length of the wall component, one or more structural column assemblies positioned between the spanning beam and a floor plate which are structured to carry structural weights and loads received from the spanning beam. The structural column assemblies are separated by a longitudinal distance so as to define an intercolumnar region which is greater than a width of a member selected from the group consisting of a door assembly and a window assembly, and there is an exterior panel fastened between the first and second structural column assemblies that defines a generally continuous and uninterrupted planar surface over the intercolumnar region.

A wall component and other components for a building structure wherein the wall component has a spanning beam spanning the length of the wall component, one or more structural column assemblies positioned between the spanning beam and a floor plate which are structured to carry structural weights and loads received from the spanning beam. The structural column assemblies are separated by a longitudinal distance so as to define an intercolumnar region which is greater than a width of a member selected from the group consisting of a door assembly and a window assembly, and there is an exterior panel fastened between the first and second structural column assemblies that defines a generally continuous and uninterrupted planar surface over the intercolumnar region.