A router includes a housing and a motor assembly disposed within the housing. The motor assembly includes a driven shaft having a cavity on a first end of the driven shaft. The router includes a collet that is configured to mate into the cavity of the driven shaft with the collet being configured to grip a shank of a router bit. The router includes a gear mechanism that is configured to couple and decouple from a second end of the driven shaft such that a rotation of the gear mechanism when the gear mechanism is coupled to the second end of the driven shaft causes at least one of tightening and loosening of the collet.

A coping cut machine can include a workpiece platform having a support surface for receiving a workpiece support surface. The coping cut machine can have first and second rotary cutting devices, each supporting at least one knife, and at least one workpiece alignment member supported by the workpiece platform for aligning a workpiece supported by the workpiece platform relative to at least one of the first and second rotary cutting devices. In response to sliding the workpiece along the at least one workpiece alignment member and during rotation of at least one of the first and second rotary cutting devices, the at least one knife operates to perform a coping cut on an end of the workpiece. The first and second rotary cutting devices can optionally be rotated in opposite directions to cut either end of a workpiece. At least one of the first and second rotary cutting devices can comprise a modular rotary cutting assembly having a keyed profile portion received in a keyed profile aperture of a drive wheel, and that is removable from the coping cut machine.

A multiple blade table saw for use with a tool attachment assembly enables a user to perform different woodworking tasks simultaneously on plywood to enhance efficiency. The table saw assembly includes a housing to store a blade assembly having a plurality of blades operably connected to a motor, a tabletop coupled to a top of the housing and having a first slot and a second slot, the first slot able to permit portions of the plurality of blades to extend therethrough to be exposed above the tabletop, and a carriage slidably mounted to the housing and able to secure the tool attachment assembly. The tool attachment assembly includes a cutting member that is positioned within the second slot of the tabletop. The user maneuvers a plywood sheet on the tabletop to permit the blade assembly and cutting member to cut the plywood sheet.

A multiple blade table saw for use with a tool attachment assembly enables a user to perform different woodworking tasks simultaneously on plywood to enhance efficiency. The table saw assembly includes a housing to store a blade assembly having a plurality of blades operably connected to a motor, a tabletop coupled to a top of the housing and having a first slot and a second slot, the first slot able to permit portions of the plurality of blades to extend therethrough to be exposed above the tabletop, and a carriage slidably mounted to the housing and able to secure the tool attachment assembly. The tool attachment assembly includes a cutting member that is positioned within the second slot of the tabletop. The user maneuvers a plywood sheet on the tabletop to permit the blade assembly and cutting member to cut the plywood sheet.

A router power tool having a housing and a base, the housing mounted to be moveable with respect to the base. The base and housing are connected by first and second extendable assemblies, at least one of the assemblies including biasing means to bias the housing away from the base. This extendable assembly has a control portion which can be moved, while located with the extendable assembly, from a first position in which the biasing means provides the biasing force and a second position in which the biasing means is released. In one embodiment, the router power tool includes safety stop portions to prevent movement of the tool holder while cutting tool changing is being performed. In another embodiment, a safety stop portion limits movement of at least one of the extendable assemblies when the cover is held by the power switch when in the on position.

A router power tool having a housing and a base, the housing mounted to be moveable with respect to the base. The base and housing are connected by first and second extendable assemblies, at least one of the assemblies including biasing means to bias the housing away from the base. This extendable assembly has a control portion which can be moved, while located with the extendable assembly, from a first position in which the biasing means provides the biasing force and a second position in which the biasing means is released. In one embodiment, the router power tool includes safety stop portions to prevent movement of the tool holder while cutting tool changing is being performed. In another embodiment, a safety stop portion limits movement of at least one of the extendable assemblies when the cover is held by the power switch when in the on position.

In a molder, at least one rotatably driven tool (7, 8, 10, 11) is used to produce the structure (27) or contour on the workpiece (1) by workpiece removal. The workpiece positions along the workpiece (1) for producing the structure or contour are set depending on the data of the workpiece (1) and of the tool (7, 8, 10, 11). The data are transmitted to the machine controller which processes the CNC program based on the data during the passage of the workpiece (1) through the molder and moves the tool (7, 8, 10, 11) into the required positions via CNC drives depending on the workpiece position. The workpiece position is sensed during the passage of the workpiece (1) through the molder. In order to sense the workpiece position in the molder, at least one measuring element (18) is provided upstream and downstream of the tool (1), said measuring element (18) being connected to the machine controller and supplying signals that describe the advancing travel of the workpiece (1) to the machine controller. By way of the machine controller, the tool (7, 8, 10, 11) is moved into the respective tool positions in accordance with the signals.

In a molder, at least one rotatably driven tool (7, 8, 10, 11) is used to produce the structure (27) or contour on the workpiece (1) by workpiece removal. The workpiece positions along the workpiece (1) for producing the structure or contour are set depending on the data of the workpiece (1) and of the tool (7, 8, 10, 11). The data are transmitted to the machine controller which processes the CNC program based on the data during the passage of the workpiece (1) through the molder and moves the tool (7, 8, 10, 11) into the required positions via CNC drives depending on the workpiece position. The workpiece position is sensed during the passage of the workpiece (1) through the molder. In order to sense the workpiece position in the molder, at least one measuring element (18) is provided upstream and downstream of the tool (1), said measuring element (18) being connected to the machine controller and supplying signals that describe the advancing travel of the workpiece (1) to the machine controller. By way of the machine controller, the tool (7, 8, 10, 11) is moved into the respective tool positions in accordance with the signals.

A router includes a housing and a motor assembly disposed within the housing. The motor assembly includes a driven shaft having a cavity on a first end of the driven shaft. The router includes a collet that is configured to mate into the cavity of the driven shaft with the collet being configured to grip a shank of a router bit. The router includes a gear mechanism that is configured to couple and decouple from a second end of the driven shaft such that a rotation of the gear mechanism when the gear mechanism is coupled to the second end of the driven shaft causes at least one of tightening and loosening of the collet.

A router includes a housing and a motor assembly disposed within the housing. The motor assembly includes a driven shaft having a cavity on a first end of the driven shaft. The router includes a collet that is configured to mate into the cavity of the driven shaft with the collet being configured to grip a shank of a router bit. The router includes a gear mechanism that is configured to couple and decouple from a second end of the driven shaft such that a rotation of the gear mechanism when the gear mechanism is coupled to the second end of the driven shaft causes at least one of tightening and loosening of the collet.