A binding machine includes: a twisting unit configured to twist a binding member which is guided in a loop shape so as to wrap around an object, and thus to bind the object; a twist motor configured to drive the twisting unit; a circuit board having a mounting surface on which a control unit configured to control the twist motor is mounted; a body portion housing the twisting unit, the twist motor and the circuit board; and a handle portion protruding outward from the body portion. The circuit board is arranged between the twist motor and an inner wall surface of the body portion which is located toward the handle portion in such a manner that the mounting surface faces the inner wall surface and the circuit board is closer to the twist motor than the inner wall surface.

A mounting bracket a generally C-shaped arrangement for receiving a fork carrier beam of a drywall crane fork assembly. A removable sidewall carried by the mounting bracket for enclosing the mounting bracket around the fork carrier beam. A tensioning member carried by the removable sidewall for biasing against the fork carrier beam. An extension arm carried in an extension arm port, wherein the extension arm has a generally L-shaped arrangement with a first arm portion adjustably carried in the extension arm port, and a second arm portion disposed at a distal end of the first arm portion and extending perpendicular to the first arm portion. Accordingly, the mounting bracket is removably mountable around the fork carrier beam and provides the extension arm extending in an adjustable arrangement perpendicular to lifting forks of the drywall crane fork assembly to assist with sliding drywall off the fork assembly over an extended distance.

A mounting bracket a generally C-shaped arrangement for receiving a fork carrier beam of a drywall crane fork assembly. A removable sidewall carried by the mounting bracket for enclosing the mounting bracket around the fork carrier beam. A tensioning member carried by the removable sidewall for biasing against the fork carrier beam. An extension arm carried in an extension arm port, wherein the extension arm has a generally L-shaped arrangement with a first arm portion adjustably carried in the extension arm port, and a second arm portion disposed at a distal end of the first arm portion and extending perpendicular to the first arm portion. Accordingly, the mounting bracket is removably mountable around the fork carrier beam and provides the extension arm extending in an adjustable arrangement perpendicular to lifting forks of the drywall crane fork assembly to assist with sliding drywall off the fork assembly over an extended distance.

An Enhanced Lift Assist Device is described. The device allows a user to lift and manipulate large, heavy or bulky items by applying force to the item as opposed to traditional control methods such as buttons. This force based system provides ease of movement of the item, making it appear much lighter than it actually is. The Enhanced Lift Assist Device also includes an adjustable base that allows for change of orientation of the device that may include leveling or self-leveling functionality, allowing the device to be operated in non-traditional environments that require leveling or operational adjustments for proper functioning.

An Enhanced Lift Assist Device is described. The device allows a user to lift and manipulate large, heavy or bulky items by applying force to the item as opposed to traditional control methods such as buttons. This force based system provides ease of movement of the item, making it appear much lighter than it actually is. The Enhanced Lift Assist Device also includes an adjustable base that allows for change of orientation of the device that may include leveling or self-leveling functionality, allowing the device to be operated in non-traditional environments that require leveling or operational adjustments for proper functioning.

A system includes a plurality of storage brackets installed on a roof deck, each including a base plate, an arm and optionally a head and a receptacle. The arm is optionally rotatable. The receptacle of one of a first pair of storage brackets is configured to receive the head of another of the first pair of storage brackets. The receptacle of one of a second pair of storage brackets is configured to receive the head of another of the second pair of storage brackets. The first and second pairs of storage brackets are spaced apart from one another. The brackets are configured to receive at least one roofing material, which is positioned on the base plate of at least one of the first pair of brackets and at least one of the second pair of brackets.

A system includes a plurality of storage brackets installed on a roof deck, each including a base plate, an arm and optionally a head and a receptacle. The arm is optionally rotatable. The receptacle of one of a first pair of storage brackets is configured to receive the head of another of the first pair of storage brackets. The receptacle of one of a second pair of storage brackets is configured to receive the head of another of the second pair of storage brackets. The first and second pairs of storage brackets are spaced apart from one another. The brackets are configured to receive at least one roofing material, which is positioned on the base plate of at least one of the first pair of brackets and at least one of the second pair of brackets.

A tilt analysis method analyzing a tilt of a columnar object is disclosed. The tilt analysis method includes: acquiring a reference value on the basis of a first position of a reflector of a measurement target device attached to a column foot portion of the columnar object; acquiring, in response to an execution instruction, a column top value on the basis of a second position of the reflector of the measurement target device attached to a column top of the columnar object, the execution instruction being received by an input section and inputted via a column top value acquisition instruction section displayed on a display section of a terminal device; generating tilt information indicating in which direction the columnar object tilts based on the reference value and the column top value; and causing the display section to display the tilt information including graphic display.

A method of facilitating production of a structure at a construction site, the method including the steps of: a) obtaining a mobile apparatus having: a frame; first and second wheels and a steerable third wheel spaced in a fore and aft direction from the first and second wheels and laterally between the first and second wheels; and a platform on the frame defining a first upwardly facing surface that is spaced at least 20″ above the subjacent surface; b) placing at least one building component in a transporting position on the first upwardly facing surface; c) advancing the mobile apparatus from the first location to a second location at or adjacent the construction site; and d) separating the at least one building component from the transporting position at the second location.

A method of facilitating production of a structure at a construction site, the method including the steps of: a) obtaining a mobile apparatus having: a frame; first and second wheels and a steerable third wheel spaced in a fore and aft direction from the first and second wheels and laterally between the first and second wheels; and a platform on the frame defining a first upwardly facing surface that is spaced at least 20″ above the subjacent surface; b) placing at least one building component in a transporting position on the first upwardly facing surface; c) advancing the mobile apparatus from the first location to a second location at or adjacent the construction site; and d) separating the at least one building component from the transporting position at the second location.