A lift attachment to be used on motorcycles is disclosed herein. The lift attachment includes floor jacks comprising a horizontal central cycle support section having a vertical member on each end which terminate in horizontal jack attachment members, where the device can be a single piece or composed of multiple pieces removably attached to one another. The lift attachment is then placed underneath a motorcycle. A jack lift is then mounted on the horizontal jack attachment members. The jack maybe a hydraulic jack or an automatic jack. A user may then actuate each of the jacks placed on the ends of the lift attachment. The lift attachment is then raised a predetermined height, thereby lifting the motorcycle a predetermined amount. The lift attachments raise a motorcycle the necessary height needed for working on a motorcycle.

A robotic drilling apparatus is described which has been adapted for drilling holes in ceilings and walls on a construction site. The apparatus (100) comprises a robotic arm (110) mounted to a substructure (112), the substructure comprising a lifting mechanism arranged to lift the robotic arm to a working position, wherein the robotic arm has a base end (110a) and a movable end (110b), the base end being mounted to an upper surface (114) of the lifting mechanism and the movable end being capable of movement with respect to the base end in a three dimensional space, wherein the robotic drilling apparatus further comprises a mount (120) provided on the movable end for holding a drilling device (122) and a control unit (134) for controlling the operation of the robotic arm. The lifting mechanism preferably comprises a scissor-jack lifting platform. The robotic arm (110) and any support structure (134) for the robotic arm weighs less than 43 kg, and preferably individually weigh less than 23 kg.

A compact, demountable or collapsible, portable stand or support apparatus for providing construction elements, typically scaffolding planks and poles, in a safe and user accessible position. The invention including a demounting connector, specially adapted to removably connect a leaning support to a base, in an apparatus that is assembled for use and can be collapsed or demounted for purposes of storage and/or transport between work sites. The invention seeks to prevent worker injury as a consequence of lifting heavy construction elements off the ground, by placing them in a safe and substantially upright or user-friendly and accessible position prior to their handling.

Systems, apparatus, methods, and techniques of assembly of discrete modules of a control panel are disclosed. The modules can be independently wired, tested, and installed into a control panel. Module definitions are defined specifying components to perform the electrical function, a mechanical arrangement of the components, electrical connections, and logical interactions of the module. A bill of materials can be generated based on a designation of a set of modules for a control panel and the module definitions. Modularly assembled control panels are disclosed. An assembly frame is described herein for temporarily mounting components of a module for independent assembly of a control module and for eventual removal and installation into a control panel frame. The assembly frame may include a faceplate frame and side frames and temporary mounting features.

A first example drill mount assembly includes a base assembly and a mast. The base assembly has a first mount, a second mount, and an adjuster plate. The second mount is extendable relative to the first mount. The adjuster plate is slidable relative to the second mount. The mast extends from the adjuster plate.

A device for receiving a hand-held power tool is provided. The device can serve as an interface between the hand-held power tool and a support or carrying structure and comprises a first and a second fastening means and a counter structure. With the interface it is possible to optimally adapt the suspension of the hand-held power tool to the center of gravity of the hand-held power tool. In addition, the interface can be adapted to different hand-held power tools or types of hand-held power tools by an adjustable distance between the first fastening means and the counter structure or an adjustable diameter of the counter structure. In further aspects, the invention relates to the use of the interface for fastening a hand-held power tool to a support structure, and to a corresponding method.

A construction site box for providing tools, power tools, power tool parts and/or consumables on a construction site, in particular on a building construction site or on a civil engineering construction site, is provided. The construction site box comprises at least one holder for holding a tool, a power tool, a power tool part and/or a consumable, a mobile transporting platform for transporting the construction site box and a motor for driving the transporting platform and enables a user of the construction site box to work on a construction site particularly efficiently and while safeguarding health.

A miter saw stand is provided. The miter saw stand is structured to be coupled to a miter saw. The miter saw has a plurality of mounting holes and includes a plurality of spaced apart legs each coupled to one another and together configured to support the miter saw. Each leg may have a first end, a second end located opposite the first end, and an interconnect apparatus coupled to the second end and configured to extend into a corresponding one of the mounting holes of the miter saw in order to mount the leg to the miter saw. The miter saw is configured to be supported in an elevated position at the second ends of the plurality of legs of the miter saw stand.

A tool guide has a mounting, a lifting mechanism, and a chassis. The mounting is for fixing a hand-held machine tool. The mounting is mounted on the lifting mechanism. The lifting mechanism has a propulsion unit for vertically lifting the mounting. The chassis has two wheels on a wheel axle, a drive coupled with the wheels, and a steering system. The lifting mechanism is rigidly mounted on the chassis. A center of gravity sensor is arranged to detect a lateral deflection of the center of gravity of the lifting mechanism relative to the wheel axle. The steering system is configured to control the drive to deliver a torque counteracting the lateral deflection.

An adjustable interior bicycle stand for storing a bicycle in the interior of a vehicle during transportation. The adjustable interior bicycle stand comprises a base and vertical supports. The base further comprises a first set of holes and a second set of holes for housing the vertical supports. The vertical supports further comprise an anchor end and a support end. The anchor end of the vertical supports being seated in the combination of the first and second set of holes of the base. The support end of the vertical supports further comprises an adjustment means and a cradle. The vertical supports further comprising an elevating means for adjusting the location of the cradle in distal relation to the base.