Abstract: A machine for inserting plastic pre-formed helical coils into aligned holes at an edge of respective collated books for binding the books is adjustable to accommodate different thickness books and respective different diameter and pitch of coil. The machine has a platen having an edge comb at which the edge of the book is presented and a coil drive for rotating the helical coil parallel to the edge of the platen. Two spine formers support the book such that its spine takes up a curved shape in side elevation and a clamp with an edge comb clamps the book on to the platen. Both the edge comb of the platen and of the clamp are provided as insert portions attachable to the respective element for easy replacement of the pitch. The location of the coil drive is automatically adjusted by measuring the coil diameter with a gauge. The clamp moves along an arc which automatically adjusts the clamping location for thickness of the book.

Abstract: A binding machine and method for spirally binding a sheaf of papers into a book uses an adjustable speed drive to rotate a flexible plastic spiral element into respective holes in the book. The book has a plurality of holes in a row adjacent one edge of the book to receive the leading edge of the spiral bonding elements. A cylindrically shaped mandrel is spaced apart from a glidable block. The plastic pre-formed spiral binding element is fed onto the mandrel from the distal end thereof, with the leading edge of the binding element facing and spaced apart from the book. A pair of leading edge spreaders, one of which has a guidance groove, engages the plastic spiral to spread its coils just enough to permit it to enter the successive holes of a sheaf to be bound. A trailing spreader at the opposite end insures that the last hole is accommodated with a portion of the spiral coil.

Abstract: A simplified and easy-to-use binding device is provided. A plurality of sheets are bound together by inserting a spiral coil through a series of holes punched in each of the sheets at certain intervals. In a first embodiment, a spiral coil having the same pitch as the interval between the holes is used. In a second embodiment, a densely spiraled coil is used. A coil leading guide is prepared for inserting the densely spiraled coil through the holes in the sheets. The coil leading guide has the same pitch as the interval between the holes, and is coupled to the densely spiraled coil through an engaging portion formed in an end portion of the coil leading guide. The coil leading guide is spirally inserted through the holes such that the densely spiraled coil follows the coil leading guide, whereby the plurality of sheets are bound together.

Abstract: A combination book binding machine with a plastic coil forming machine, whereby a plastic spiral coil is formed at a first raised temperature, then cut to a length sufficient for the plastic spiral coil to bind a book, cooled and then advanced toward a receiving coil conveyor of a coil binding machine, for binding the book with a plastic coil at the lowered cooled temperature. The binding machine and method for spirally binding a sheaf of papers into a book uses an adjustable speed drive to rotate the cooled flexible plastic spiral coil into respective holes in the book. The book has a plurality of holes in a row adjacent one edge of the book to receive the leading edge of the plastic spiral binding coils. A cylindrically shaped mandrel is spaced apart from a glidable block. The plastic pre-formed spiral binding coil is fed onto the mandrel from the distal end thereof, with the leading edge of the binding element facing and spaced apart from the book.