A kit for making a sign utilizing a router includes a plurality of interlocking templates that can be utilized to form the letters for a sign. The kit includes two or more templates that are positioned in the same location on a board in a sequence to form a single letter, number or symbol with an island with an uninterrupted perimeter. The kit also includes a guide bushing that is secured to the router bit to prevent the router bit from gouging into the templates.

An apparatus configured for use with a router includes a top plate, a carriage, a threaded shaft, a first adjustment mechanism, and a second adjustment mechanism. The carriage is configured to at least partially surround the router. The threaded shaft has a first longitudinal axis, the shaft connecting the top plate and carriage so that the carriage is movable along the first longitudinal axis. Rotation of the first adjustment mechanism about the first longitudinal axis in a first direction and for a number of rotations is configured to rotate the threaded shaft about the first longitudinal axis in the first direction at a first speed. Rotation of the second adjustment mechanism about a second longitudinal axis for the number of rotations is configured to rotate the threaded shaft about the first longitudinal axis in the first direction and at a second speed that is faster than the first speed.

An apparatus configured for use with a router includes a top plate, a carriage, a threaded shaft, a first adjustment mechanism, and a second adjustment mechanism. The carriage is configured to at least partially surround the router. The threaded shaft has a first longitudinal axis, the shaft connecting the top plate and carriage so that the carriage is movable along the first longitudinal axis. Rotation of the first adjustment mechanism about the first longitudinal axis in a first direction and for a number of rotations is configured to rotate the threaded shaft about the first longitudinal axis in the first direction at a first speed. Rotation of the second adjustment mechanism about a second longitudinal axis for the number of rotations is configured to rotate the threaded shaft about the first longitudinal axis in the first direction and at a second speed that is faster than the first speed.

A router includes a motor assembly that is arranged and configured to hold a router tool and to impart rotation to the router tool and a frame that is fixed in size and that is configured to house the motor assembly.

A router includes a motor assembly that is arranged and configured to hold a router tool and to impart rotation to the router tool and a frame that is fixed in size and that is configured to house the motor assembly.

A cutting tool controller and method of controlling are provided. The method includes providing a swing angle for the cutting tool, obtaining a swing vector of the cutting tool through kinematics calculation according to the swing angle, using the swing vector of the cutting tool to calculate a set of possible solutions of a swaying angle of the cutting tool, selecting a possible solution satisfying an operation condition of the machine from the set of possible solutions, using the selected possible solution to calculate an offset of positions of the cutting tool before and after swaying, so as to generate a compensation vector, calculating required compensation values for three axes of the machine according to the compensation vector, and outputting a control command including the compensation values, such that the cutting tool of the machine or a working table for placing the workpiece thereon of the machine moves correspondingly.

A debris receptacle for a router table includes an enclosure configured to be attached to the router table. The enclosure defines an interior sized and shaped to receive a router. The enclosure defines a debris inlet aperture in fluid communication with a router bit aperture of the work platform so that the interior receives the debris from router bit aperture via the debris inlet aperture. The enclosure also defines a debris outlet aperture in fluid communication with a dust collector to remove debris from the interior. The enclosure further defines an air inlet aperture in fluid communication with air in an environment outside the enclosure. The debris receptacle also includes an air intake conduit for fluidly coupling the air inlet aperture to an air inlet of the router, thereby enabling the router to draw air into the router from the environment outside the enclosure to cool the router.

A power device includes a power tool, a mounting plate, a mounting table, a positioning assembly, and a locking assembly. The positioning assembly includes a positioning piece. A positioning space is formed between the positioning piece and the mounting table. An end of the mounting plate is enabled to be inserted into the positioning space so that the mounting plate is pre-positioned. The locking assembly includes a movable piece and a locking piece. The movable piece includes a support position where the mounting plate is supported and an unlocked position where support for the mounting plate is released. The locking piece fixes at least the mounting plate to the mounting table.

A power device includes a power tool, a mounting plate, a mounting table, a positioning assembly, and a locking assembly. The positioning assembly includes a positioning piece. A positioning space is formed between the positioning piece and the mounting table. An end of the mounting plate is enabled to be inserted into the positioning space so that the mounting plate is pre-positioned. The locking assembly includes a movable piece and a locking piece. The movable piece includes a support position where the mounting plate is supported and an unlocked position where support for the mounting plate is released. The locking piece fixes at least the mounting plate to the mounting table.

A sliding cutting machine (1) includes: slide bars (51); a slide base (52), which slides along the slide bars; and a cutting-machine main body (10), which is swingable in an up-down direction about an up-down swing (pivot) shaft (10a) provided on the slide base. The cutting-machine main body includes: an output shaft (37) extending in an axial direction orthogonal to the slide bars and mounting a cutting tool (11); an electric motor (23) between the cutting tool and the slide bars when the cutting tool is vertical, and located more upward than the slide bars; and a motive-power transmitting part (30) transmitting the driving force of the electric motor to the output shaft. The motive-power transmitting part is between the cutting tool and the slide bars and upward of the slide bars when the cutting-machine main body is at a top dead center.