The present invention relates to a spine clamp binder for a quick binding technique of separate sheets into booklets/folders by bending the sides of the binder backwards for the binder to open.
The U.S. Pat. No. 7,798,736 and U.S. Pat. No. 7,922,207 each discloses a media binder arrangement having a cover with a front planar surface and a back planar surface connected by a spine planar surface. The spine planar surface includes several spine clamps each of which provides a closing force strong enough to hold a bundle of paper sheets. The clamps can be opened by a tension sheet attached to the spine clamp as well as to the cover of the media binder. When the cover is opened more than 270°, an opening force is transmitted to the spine clamps by the tension sheet. Each spine clamp is designed with planar side surfaces angled towards each other at the top of the spine clamp and connected to each other at the bottom by a planar clamp spine part. These patents also discloses that the media binders are provided with a datum spacer provided with a datum stop arranged perpendicular to and at one end of the datum spacer.
The U.S. Pat. No. 7,757,358 discloses sheet retention mechanisms for spring clamp binders having a spacer as a datum bar with a set of holes passing through the spacer and that each of the holes is aligned with holes in the spring clamp so that rivets or the like connects the spring clamp and the spacer. The spring clamps are provided with flat side surfaces which are closed at the top but can be opened against the spring force by a tension system.
In each of the previously known patents disadvantages occur in that they provide their tension sheet attached to the spring clamp by gluing, folding or riveting. These methods of attachments are time consuming and expensive.
The object of the present invention is to provide a new spine clamp for a spine clamp binder which spine clamp makes it possible to produce a spine clamp binder faster and less expensive than before.
The object of the invention is also to provide a new production method for a spine clamp binder using such new spine clamps.
By the present invention, as this is seen in the independent claims, the above-mentioned objects are met, said disadvantages having been eliminated. Suitable embodiments of the invention are defined in the dependent claims.
The invention relates to a media binder arrangement comprising a cover with a front, a back and a spine extending along a spine axis.
The arrangement comprises at least one spring clamp attached to the spine and which spring clamp having a first side with a first clamping side edge and a second side with second clamping side edge. The side edges exerting a spring force towards each other in an activated position. The sides of the spring clamp are joined together at a distance from the side edges with a clamp base thereby defining an interior cavity in the spring clamp. Each side of the spring clamp having an acute angle towards the clamp base. A tension sheet is mounted inside the cavity and protruding out from the cavity next to each of the respective side edges and firmly attached to the cover. A datum spacer is mounted inside the cavity holding the tension sheet towards the clamp base of the spring clamp wherein the interior cavity of said spring clamp additionally is formed with a datum spacer cavity having spacer walls limited from the sides of the spring clamp by a bending. The spacer walls are having wall surfaces facing the clamp base for holding the datum spacer in abutment with the clamp base. These spacer walls are formed in the respective side edges of the spring clamp at a bending in, the side edges. The datum spacer cavity is thus formed and delimited from the rest of the interior cavity by these bendings.
In an embodiment of the invention the clamp base has a flat surface.
In an embodiment of the invention the wall surfaces of said spacer walls are parallel with the surface of the clamp base. This embodiment provides for a rectangular datum spacer cavity.
In an embodiment of the invention the wall surfaces of said spacer walls each having an acute angle towards the surface of the clamp base. This provides for a clamping force for holding a bundle of papers. The more acute angle towards the clamp base the larger clamping force of a given spring clamp properties.
In an embodiment of the invention the said acute angles of the spacer wall surfaces each are different from the angles between the sides and the clamp base respectively. This means that an acute angle between a spacer wall and the clamp base is different from an acute angle between side wall and the clamp base. This provides for a datum spacer cavity of another form than the purely rectangular form.
In an embodiment of the invention a perpendicular projection of the spacer walls towards the clamp base covers from 20% to 60% of the clamp base surface. This determines the coverage of the datum spacer by the spacer cavity.
In an embodiment of the invention the said projection covers 30% to 40% of the clamp base surface.
In an embodiment of the invention the said projection covers 35% of the clamp base surface.
In an embodiment of the invention the datum spacer is provided as an elongate ruler having a rectangular cross section.
In an embodiment of the invention the elongate ruler in one end is provided with a datum stop extending perpendicular to the longitudinal direction of the ruler. This datum stop provides for an alignment of the bundle of papers in a second direction perpendicular to the clamp base.
The invention also covers a method of manufacturing such a media binder arrangement having at least one spring clamp with an interior cavity and with an additionally datum spacer cavity designed to hold a datum spacer. A tension sheet is attached to a datum spacer and then the tension sheet together with the datum spacer is inserted longitudinally into the datum spacer cavity in the spring clamp for holding the tension sheet in the datum spacer cavity of the spring clamp. Then the tension sheet is attached to a front and a back of a binder cover and at the same time the spring clamp is positioned in a spine position of the binder cover.
In an embodiment of the method the tension sheet is glued to the inside of the binder cover.
An embodiment of the method of manufacturing a media binder have the following steps:
Now, the invention will be described in more detail, references being made in connection with the accompanying drawing figures. The drawing figures show only explanatory sketches intended to facilitate the understanding of the invention.
With such an arrangement of a spring clamp media binder, it is possible to icy collect a bundle of papers aligned in a binding position only by bending the binder backwards and thereafter let the binder close by its spring clamp.
The spring clamp 15 is provided with a first side 16 with a first clamping side edge 161 and a second side 17 with second clamping side edge 171. Each side edge 161, 171 is preferably curved outwards in order to provide a smooth surface onto which the tension sheet 20 abuts. The side edges 161, 171 are exerting a spring force towards each other in an activated position in order to press a bundle of papers together in the media binder arrangement 10. The sides 16, 17 of the media binder connects the side edges 161, 171 with a clamp base 18 at a distance from the side edges thereby defining an interior cavity 19 in the spring clamp 15. The tension sheet 20 is mounted inside the cavity 19 and is protruding out from the cavity 19 next to each of the respective side edges 161, 171 and is firmly attached to the cover 11.
Each side 16, 17 of the spring clamp 15 having an acute angle towards the clamp base 18 in an inactivated position. The interior cavity 19 at the bottom of the spring clamp 15 is designed with a spacer cavity 35. This spacer cavity is in
For this purpose the spacer cavity 35 is provided with spacer walls 36, 37 which wall surfaces are facing the clamp base 18 for holding the datum spacer 30 in abutment with the clamp base 18 even when the binder and thus the spring clamp is opened. The spacer walls 36, 37 of the spring clamp covers an inner side surface 21 of the datum spacer with 15-25% of the total inner side surface 21, preferably 20%.
The clamp base disclosed in the embodiments might as alternative embodiments be designed concave with an inward protruding curve.
A tension sheet 20 is attached to the datum spacer 30 so that both the tensioning sheet 20 and the datum spacer can be mounted into the spring clamp in a longitudinal motion illustrated by the arrow in the figure. For illustrative purposes the datum spacer ii
Thus, the tension sheet 20 together with the datum spacer 30 is inserted longitudinally into the datum spacer cavity 35 in the spring clamp 15 for holding the tension sheet in the datum spacer cavity 35. Preferably this mounting of the tensioning sheet and the datum spacer is being made while the spring clamp is forced towards opening.
When the tensioning sheet and the datum spacer is in a correct position, which means levelled with the spring clamp, the tension sheet 20 is attached to a front 12 and a back 13 of a binder cover 11. At the same time the spring clamp 15 is positioned in a spine position of the binder cover 11. Preferably the tension sheet 20 is glued to the inside of the binder cover 11.
In the disclosed
In all the disclosed embodiments the common design factor is that the spring clamp is designed with a clearly defined datum spacer cavity.
Number | Date | Country | Kind |
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16202897.1 | Dec 2016 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/077182 | 10/24/2017 | WO | 00 |