An apparatus for accurately cutting baitfish at a compound miter angle of forty five degrees. The apparatus automatically centers the bait fish within a transverse well at the bottom of a half pipe tube capable of accommodating various common bait fish sizes. The compound miter cut provided by this apparatus exactly matches the compound miter found within the construction of the Sure Spin Herring Helmet® Angler Innovations. The present apparatus is easily washable and leaves no trace of fish scent between uses as it is constructed from non-absorbing high density polyethylene (HPDE). The apparatus further provides safe usage as downward pressure is applied to the cutting tool and bait fish as the cutting tool blade enters the blade slot groove. The present apparatus is constructed with two half pipe options to accommodate multiple bait fish dimensions.

Implementations of a miter jig are provided. The miter jig can be used to fabricate a non-perpendicular miter joint, the miter joint being formed by beveling each of two parts (e.g., wooden panels) to be joined to form a corner. By using a miter jig, each of the parts to be joined can be cut to have a bevel angle of up to 80. In this way, a corner having an acute angle or an obtuse angle can be formed. The miter jig is configured so that it can be secured to a workpiece and comprises a base plate connected to a top plate by a hinge, at least two adjustable brace assemblies configured to set the angle of the top plate relative to the base plate, and a cutting implement guide configured to guide a cutting implement to cut a workpiece at an angle.

A method is for making a crown molding jig device. The method includes forming first and second V-shaped frames. Each of the first and second V-shaped frames has a vertex portion, and first and second legs extending from the vertex portion. The vertex portions of the first and second V-shaped frames are in a nested arrangement, and the second legs of the first and second V-shaped frames are parallel. The first legs of the first and second V-shaped frames are in a stacked arrangement, and the second legs of the first and second V-shaped frames define a recess. The first leg of the second V-shaped frame defines first and second slots. The method includes coupling first and second adjustable studs to be carried by the first leg of the first V-shaped frame, slidably receiving the coupled first and second adjustable studs into the first and second slots, respectively, so that the recess is adjustable in size, and fastening first and second fastening nuts respectively on the first and second adjustable studs.

Implementations of a miter jig are provided. The miter jig can be used to fabricate a non-perpendicular miter joint, the miter joint being formed by beveling each of two parts (e.g., wooden panels) to be joined to form a corner. In some implementations, by using a miter jig, each of the parts to be joined can be cut to have a bevel angle of up to 80. In this way, a corner having an acute angle or an obtuse angle can be formed. The miter jig is configured so that it can be secured to a workpiece and comprises a base plate connected to a top plate by a hinge, at least two adjustable brace assemblies configured to set the angle of the top plate relative to the base plate, and a cutting implement guide configured to guide a cutting implement to cut a workpiece at an angle.

A mitre cutting guide tool (1) comprises a first body section (2a) having a substantially planar outer face with an outer edge configured to rest against the face of a skirting board or coving to guide a cutting tool in use; a second body section (2b) rotationally connected to the first body section (2a) via a connecting means (5); a sensing means (9) configured to measure the angle between the first and second body sections (2a, 2b); a locking means (5) configured to connect the first and second body sections (2a, 2b) so that the angle can be altered and to lock the first and second body sections (2a, 2b) in position to set a given angle; the second body section (2b) supporting the first body section (2a) at the set angle against the length of skirting board or coving; the connecting means and/or locking means (5) configured so that the space between the first and second body sections (2a, 2b) is substantially unobstructed.

A crown molding jig device may include first and second frames. Each of the first and second frames may have a vertex portion, and first and second legs extending from the vertex portion. The second legs of the first and second frames may define a recess between. The first leg of the second frame may define first and second slots. The crown molding jig device may include first and second adjustable studs carried by the first leg of the first frame, and being slidably received by the first and second slots so that the recess is adjustable in size.

A miter box includes, in a first direction, a through opening having a shape adapted to the cross-section of an element to be cut.

A crown molding jig device may include first and second frames. Each of the first and second frames may have a vertex portion, and first and second legs extending from the vertex portion. The second legs of the first and second frames may define a recess between. The first leg of the second frame may define first and second slots. The crown molding jig device may include first and second adjustable studs carried by the first leg of the first frame, and being slidably received by the first and second slots so that the recess is adjustable in size.

A mitre cutting guide tool (1) comprises a first body section (2a) having a substantially planar outer face with an outer edge configured to rest against the face of a skirting board or coving to guide a cutting tool in use; a second body section (2b) rotationally connected to the first body section (2a) via a connecting means (5); a sensing means (9) configured to measure the angle between the first and second body sections (2a, 2b); a locking means (5) configured to connect the first and second body sections (2a, 2b) so that the angle can be altered and to lock the first and second body sections (2a, 2b) in position to set a given angle; the second body section (2b) supporting the first body section (2a) at the set angle against the length of skirting board or coving; the connecting means and/or locking means (5) configured so that the space between the first and second body sections (2a, 2b) is substantially unobstructed.