A mobile orthodontic treatment system includes comprising a mobile trailer and a panoramic machine provided within the trailer. The panoramic machine is configured to obtain a 2-D image of a patient's mouth and includes a base secured to the floor of the housing and a stanchion secured to the trailer by a bracket. The mobile orthodontic treatment system further includes a digital scanner and a monitor provided within the housing. The digital scanner is configured to obtain a 3-D image of the patient's mouth and display the image on the monitor. The digital scanner and the monitor are mounted on a wall of the housing by a wall mount articulating bracket. The mobile orthodontic treatment system further includes a lift assembly provided on one of a side and an end of the housing to enable disabled people to enter and exit the housing.

Systems, devices, and methods having a liftgate frame; a first bracket mount connected to a beam via one or more upper actuators and two or more upper linkages, the two or more upper linkages pivotally mounted between the first bracket mount and the liftgate frame, and where the first bracket mount is configured to move from a first stowed position under the liftgate frame to a second engage position via the one or more upper actuators and the two or more upper linkages; a second bracket mount connected to the beam; a third bracket mount connected to second bracket mount via one or more lower actuators and two or more lower linkages, the two or more lower linkages pivotally mounted between the second bracket mount and the third bracket mount; and a lift platform connected to the third bracket mount, where the lift platform is configured to move from an up position to a down position positioned selectively relative to an external surface; where the first bracket mount moves in an arcuate path from the first stowed position under the liftgate frame to the second engaged position.

The present invention is a cargo carrier. The preferred embodiment is a cantilever displacement cargo carrier with a beam. The first end of the beam comprises a cantilever displacement housing with a pivot hole. A pivot beam is pivotally attached to the beam at the cantilever displacement housing by a pivot pin inserted into the pivot hole and a pivot bushing. The pivot beam preferably has at least one pin saddle where a horizontal bearing pin with at least one bearing is inserted. The bearing preferably has an outer circumference that extends above the top surface of the pivot beam and contacts the cantilever displacement housing. The second end of the beam has a receiver saddle where the pivot beam can be locked in place at an anchor bushing by a retainer pin.

A mobile orthodontic treatment system includes comprising a mobile trailer and a panoramic machine provided within the trailer. The panoramic machine is configured to obtain a 2-D image of a patient's mouth and includes a base secured to the floor of the housing and a stanchion secured to the trailer by a bracket. The mobile orthodontic treatment system further includes a digital scanner and a monitor provided within the housing. The digital scanner is configured to obtain a 3-D image of the patient's mouth and display the image on the monitor. The digital scanner and the monitor are mounted on a wall of the housing by a wall mount articulating bracket. The mobile orthodontic treatment system further includes a lift assembly provided on one of a side and an end of the housing to enable disabled people to enter and exit the housing.

A loading/unloading device for attachment to a delivery vehicle to facilitate at least one of load and unloading of the delivery vehicle. The loading/unloading device comprises a fixed base member for attachment to the delivery vehicle. A movable base member is supported and axially movable, by a first drive, with respect to the fixed base member. A first end of a lifting arm is pivotably connected to a first end of the movable base member, and the lifting arm is pivotable mounted with respect to the movable base member by a second drive to facilitate pivoting movement of the lifting arm relative to the movable base member. A first end of a support arm is pivotably connected to a second end of the lifting arm, and the support arm is pivotably mounted with respect to the lifting arm to facilitate loading and unloading of the delivery vehicle.

Systems, methods, and devices for correcting a mounting system for mounting a lift gate on a structure, the lift gate having a lift platform supported between a pair of spaced support columns, the correction system including: a first mounting member configured for attachment onto the structure; a first lift gate support column configured for attachment onto the first mounting member; a first correction mechanism configured to couple with a first support block, where the first correction mechanism creates a force between the first lift gate support column and the first mounting member when engaged, resulting in a first corrective gap forming between the first lift gate support column and the first mounting member; and where the resulting corrective gap orients the first lift gate support column to be substantially parallel with a plane parallel to a rear of the structure such that the lift gate platform can be operated.

An embodiment of a lighting device for a lift gate includes one or more sensors, each sensor configured to generate an output signal based on motion and/or orientation thereof, wherein each sensor is coupled to a movable member of the lift gate to generate an output signal indicating a motion and/or position state of said movable member of the lift gate; a controller circuit coupled to each sensor to receive an output signal from each sensor, wherein the controller circuit is configured to generate one or more control signals for controlling operation of one or more lighting elements; and one or more lighting elements coupled to the controller circuit to receive control signals from the controller circuit; wherein the controller circuit is configured to generate one or more control signals in response to the output signals from each sensor, for controlling operation of one or more lighting elements based on sensed state of the moveable member.

A floor lift system includes a stationary floor assembly and a translational floor assembly. The stationary floor assembly includes a base, a plurality of motors, and a rail system. The base is secured to a floor of the vehicle. The translational floor assembly includes a tray assembly and a floor lift assembly. A first of the plurality of motors moves the translational floor assembly horizontally from a stowed position out of a door of the vehicle to an extended position. A second of the plurality of motors moves the floor lift assembly horizontally out of the tray assembly. A third of the plurality of motors lowers the floor lift assembly.

A mounting system for mounting a lift gate on a structure is provided, the lift gate having a lift platform supported between a pair of spaced support columns. The mounting system comprises a first mounting member configured for attachment onto said structure, wherein the first mounting member includes a support protrusion for engaging an opening in a wall of a corresponding lift gate support column. The mounting system further comprises a second mounting member configured for attachment onto said structure, wherein the second mounting member includes a support protrusion for engaging an opening in a wall of a corresponding lift gate support column. When the mounting members are attached to the structure and the corresponding lift gate support columns are mounted on the support protrusions, the mounting members support the lift gate on the structure.

A lifting folding luggage rack includes a telescopic device including a telescopic rod; a turnover device including a frame body fixing rod, a resisting rod, a resisting block and a turnover seat; a turnover device including a frame body fixing rod, a resisting rod, a resisting block and a turnover seat; and a frame body.