A paper binding system utilizing standard single, double or three-hole paper punches allows for binding variable numbers of pages. System uses 2 members; a first member is an elongated tail with an elongated rib and round integrated head on top. A second clamping member attaches to the tail. Second member has a blade that engages the rib. Excess tail can be cut off with scissors. Second member can be removed by inserting a rod into the second member. The rod is inserted in an oval shaped hole with the rod at approximately at a 90 degree to the blade. It goes behind the blade and then travels up a beveled ramp of the rib thereby raising the blade slightly and disengaging the blade from the rib allowing the second member to be removed from the first member.

In a first aspect there is disclosed a spike assembly (10) including a base (12) and a spike formation (14) operatively attached to the base (12). The spike formation (14) is adapted to hold a plurality of impaled sheets and includes an elongate spike (16) longitudinally extending between a base end (18) and an impale end (20). The base end (18) of the spike (16) is operatively adapted for attachment to the base (12). The spike assembly (12) further includes a (i) handle (26) operatively associated with the spike formation (14) and moveable relative to the spike formation to apply force to a sheet to be impaled on the spike formation, and (ii) a guide assembly (28) operatively adapted to guide movement of the handle (26) relative to the spike formation (14).

In a first aspect there is disclosed a spike assembly (10) including a base (12) and a spike formation (14) operatively attached to the base (12). The spike formation (14) is adapted to hold a plurality of impaled sheets and includes an elongate spike (16) longitudinally extending between a base end (18) and an impale end (20). The base end (18) of the spike (16) is operatively adapted for attachment to the base (12). The spike assembly (12) further includes a (i) handle (26) operatively associated with the spike formation (14) and moveable relative to the spike formation to apply force to a sheet to be impaled on the spike formation, and (ii) a guide assembly (28) operatively adapted to guide movement of the handle (26) relative to the spike formation (14).

In a first aspect there is disclosed a spike assembly (10) including a base (12) and a spike formation (14) operatively attached to the base (12). The spike formation (14) is adapted to hold a plurality of impaled sheets and includes an elongate spike (16) longitudinally extending between a base end (18) and an impale end (20). The base end (18) of the spike (16) is operatively adapted for attachment to the base (12). The spike assembly (12) further includes a (i) handle (26) operatively associated with the spike formation (14) and moveable relative to the spike formation to apply force to a sheet to be impaled on the spike formation, and (ii) a guide assembly (28) operatively adapted to guide movement of the handle (26) relative to the spike formation (14).

In a first aspect there is disclosed a spike assembly (10) including a base (12) and a spike formation (14) operatively attached to the base (12). The spike formation (14) is adapted to hold a plurality of impaled sheets and includes an elongate spike (16) longitudinally extending between a base end (18) and an impale end (20). The base end (18) of the spike (16) is operatively adapted for attachment to the base (12). The spike assembly (12) further includes a (i) handle (26) operatively associated with the spike formation (14) and moveable relative to the spike formation to apply force to a sheet to be impaled on the spike formation, and (ii) a guide assembly (28) operatively adapted to guide movement of the handle (26) relative to the spike formation (14).

A paper binding device is configured to hold a plurality of paper sheets together utilizing aligned holes formed in each of the plurality of sheets. A plurality of bendable extensions extend from at least one flat first surface of a first elongated part. Each of the plurality of bendable extensions includes two cylindrically-shaped posts disposed adjacent to one another and separated by a gap. A plurality of bridges connect the two cylindrically-shaped posts along the gap. A second part includes a plurality of through apertures which are disposed from at least one flat second surface through to an opposite surface. A plurality of elongated channels are openly formed in the opposite surface. The plurality of bendable extensions are fitted through the plurality of through apertures and are configured to be manipulated by a user to bend and lock into the plurality of elongated channels.

A paper binding device is configured to hold a plurality of paper sheets together utilizing aligned holes formed in each of the plurality of sheets. A plurality of bendable extensions extend from at least one flat first surface of a first elongated part. Each of the plurality of bendable extensions includes two cylindrically-shaped posts disposed adjacent to one another and separated by a gap. A plurality of bridges connect the two cylindrically-shaped posts along the gap. A second part includes a plurality of through apertures which are disposed from at least one flat second surface through to an opposite surface. A plurality of elongated channels are openly formed in the opposite surface. The plurality of bendable extensions are fitted through the plurality of through apertures and are configured to be manipulated by a user to bend and lock into the plurality of elongated channels.

A disaster-safe document binder includes rigid frame components: a front cover panel, a back cover panel, a spine assembly, and an apron. The rigid frame components form a book-like structure sized to store documents. The spine assembly includes a plurality of mounting rods that extend across the width of the spine assembly and are removably and rotatably coupled to each support member of spine assembly. The mounting rods physically support documents hanging vertically downward from the linear mounting brackets. The spine assembly includes a locking bar or locking pin that slides within a channel of a support member of the spine assembly to release or close the mounting rods within the spine assembly. The disaster-safe document binder formed from a metal that will not rust, emit harmful gases, or stain or discolor documents contained therewithin. The disaster-safe document binder is sealed closed to control an internal micro-climate within the binder.

A disaster-safe document binder includes rigid frame components: a front cover panel, a back cover panel, a spine assembly, and an apron. The rigid frame components form a book-like structure sized to store documents. The spine assembly includes a plurality of mounting rods that extend across the width of the spine assembly and are removably and rotatably coupled to each support member of spine assembly. The mounting rods physically support documents hanging vertically downward from the linear mounting brackets. The spine assembly includes a locking bar or locking pin that slides within a channel of a support member of the spine assembly to release or close the mounting rods within the spine assembly. The disaster-safe document binder formed from a metal that will not rust, emit harmful gases, or stain or discolor documents contained therewithin. The disaster-safe document binder is sealed closed to control an internal micro-climate within the binder.

A paper binding device is configured to hold a plurality of paper sheets together utilizing aligned holes formed in each of the plurality of sheets. A plurality of bendable extensions extend from at least one flat first surface of a first elongated part. Each of the plurality of bendable extensions includes two cylindrically-shaped posts disposed adjacent to one another and separated by a gap. A plurality of bridges connect the two cylindrically-shaped posts along the gap. A second part includes a plurality of through apertures which are disposed from at least one flat second surface through to an opposite surface. A plurality of elongated channels are openly formed in the opposite surface. The plurality of bendable extensions are fitted through the plurality of through apertures and are configured to be manipulated by a user to bend and lock into the plurality of elongated channels.