A water cooling device for saw blade cooling and a road cutting machine. The water cooling device comprises a saw blade mounting shaft (12), a transmission shaft (14), a belt wheel (13), a fastening bolt (3), and a flange plate (10); the saw blade mounting shaft (12) comprises a central shaft (121) and a connecting seat (122); a first through hole (31) allowing water to flow into is formed in the fastening bolt (3); a second through hole (123) is formed in the central shaft (121); the fastening bolt (3) penetrates through the transmission shaft (14) to be butt-jointed with the central shaft (121); the first through hole (31) is in communication with the second through hole (123); the flange plate (10) is mounted on the central shaft (121); the saw blade (11) is positioned between the flange plate (10) and the connecting seat (122); at least one water outlet hole (124) is formed in the central shaft (121); the water outlet hole (124) is positioned between the flange plate (10) and the connecting seat (122); the water outlet hole (124) is in communication with the second through hole (123); a passage in communication with the water outlet hole (124) is reserved between the flange plate (10) and the saw blade (11); a passage in communication with the water outlet hole (124) is reserved between the connecting seat (122) and the saw blade (11). The road cutting machine comprises the water cooling device. The water cooling device can improve the cooling efficiency and save water resources.

A reciprocating saw may include a housing, a motor within the housing, a reciprocating drive mechanism having a rotational input driven by the motor and a reciprocating spindle to which a saw blade is attachable, and an onboard, integrated dust collection system for collecting and storing dust and debris generated by the saw blade during a cutting operation. The dust collection system includes an inlet duct, a dust container positioned downstream of the inlet duct, an outlet duct positioned downstream of the dust container, and a centrifugal fan driven by the motor for inducing an airflow through the inlet duct, the dust container, and the outlet duct.

A method includes: receiving a recycled wood workpiece populated with a set of metal fasteners; accessing an internal imaging scan; detecting the set of metal fasteners embedded in the recycled wood workpiece based on internal features detected in the internal imaging scan; for each metal fastener in the set of metal fasteners, extracting an initial position and an initial orientation of the metal fastener from the internal imaging scan; generating a virtual model of the recycled wood workpiece based on the internal imaging scan; accessing an image captured by an optical sensor; detecting a first metal fastener in the recycled wood workpiece; deriving a first position and a first orientation of the first metal fastener; and, in response to identifying the first metal fastener analogous to an initial metal fastener in the virtual model, isolating the first metal fastener in the virtual model and generating a fastener removal schedule.

A method includes: receiving a recycled wood workpiece populated with a set of metal fasteners; accessing an internal imaging scan; detecting the set of metal fasteners embedded in the recycled wood workpiece based on internal features detected in the internal imaging scan; for each metal fastener in the set of metal fasteners, extracting an initial position and an initial orientation of the metal fastener from the internal imaging scan; generating a virtual model of the recycled wood workpiece based on the internal imaging scan; accessing an image captured by an optical sensor; detecting a first metal fastener in the recycled wood workpiece; deriving a first position and a first orientation of the first metal fastener; and, in response to identifying the first metal fastener analogous to an initial metal fastener in the virtual model, isolating the first metal fastener in the virtual model and generating a fastener removal schedule.

A self-contained material separator system utilizing a vacuum and blower system, a separator assembly, and a collection assembly to separate and process waste material generated from material handling and processing devices. The material separator may further be self-contained and portable to provide flexibility in the use and deployment thereof.

A self-contained material separator system utilizing a vacuum and blower system, a separator assembly, and a collection assembly to separate and process waste material generated from material handling and processing devices. The material separator may further be self-contained and portable to provide flexibility in the use and deployment thereof.

A circular saw, in particular hand circular saw, is disclosed. The circular saw has a workpiece support surface, a saw blade and a protective cover, which covers the saw blade in a region above a workpiece to be processed. The protective cover has such a geometry and position with respect to the saw blade that a straight line, which originates from the first deflection of a tangent applied at the intersection of the saw blade circumference with the workpiece support surface from the protective cover encloses an angle of up to 30, in particular up to 20, with a line perpendicular to the workpiece support surface.

A circular saw, in particular hand circular saw, is disclosed. The circular saw has a workpiece support surface, a saw blade and a protective cover, which covers the saw blade in a region above a workpiece to be processed. The protective cover has such a geometry and position with respect to the saw blade that a straight line, which originates from the first deflection of a tangent applied at the intersection of the saw blade circumference with the workpiece support surface from the protective cover encloses an angle of up to 30, in particular up to 20, with a line perpendicular to the workpiece support surface.

A saw has a machine head mounted on a machine frame to be pivotable in a vertical plane and to be pressable downwards for sawing from a rest position and which carries a saw blade rotating for sawing. The saw has a dust collector, serving to receive the chips and dust produced during sawing, connecting to a connection socket on a saw blade cover mounted above the saw blade on the machine head, being displaceably arranged on a carriage received in a linear guide, and being connected to the connection socket via a flexible connecting line. When the machine head is pressed down, the dust collector makes a linear displacement movement, the saw blade cover and the dust collector move relative to the machine frame, and the bendability or flexibility of the connecting line between the connection socket and the dust collector compensates for the different directions of movement.

A saw has a machine head mounted on a machine frame to be pivotable in a vertical plane and to be pressable downwards for sawing from a rest position and which carries a saw blade rotating for sawing. The saw has a dust collector, serving to receive the chips and dust produced during sawing, connecting to a connection socket on a saw blade cover mounted above the saw blade on the machine head, being displaceably arranged on a carriage received in a linear guide, and being connected to the connection socket via a flexible connecting line. When the machine head is pressed down, the dust collector makes a linear displacement movement, the saw blade cover and the dust collector move relative to the machine frame, and the bendability or flexibility of the connecting line between the connection socket and the dust collector compensates for the different directions of movement.