IGGESUND TOOLS AB Patent applications |
Patent application number | Title | Published |
20100218850 | SHARP EDGED KNIFE STOP - A sharp edged knife stop can secure the position of knife blades in a cutting or chipping system and prevent the separation of knife blades. The sharp edged knife stops can also assist in the cutting or chipping and lower the amount of debris build up that would occur with the use of traditional knife stops. The sharp edged knife stop has the same inclination angle as the knife blades and the same difference in knife edge height as the knife blades above that of a retaining ring height. | 09-02-2010 |
20100184360 | METHOD OF SHARPENING A WOOD WORKING KNIFE - A method for sharpening a wood working knife having opposed cutting edges, wherein the knife body is held by clamping features on a first surface of the knife and the opposed edges are simultaneously sharpened. | 07-22-2010 |
20100176235 | LOCKING ELEMENT FOR USE WITH A KNIFE CLAMPING ASSEMBLY - A locking component for locking a clamping component to a movable base on a wood working machine is disclosed which includes a locking component body having an externally threaded portion to engage the clamping component, a head having a shoulder to engage the machine, a through bore for receiving a threaded fastener and driving features for driving the locking component into and out of threaded engagement with the clamping component. | 07-15-2010 |
20090133778 | KNIVES AND KNIFE ASSEMBLIES - A knife includes first and second edges, a ridge, a concave surface, and a planar surface. The edges are defined by intersections of outer edge forming surfaces on an outer side of the knife and inner edge forming surfaces on an inner side of the knife. The ridge is on the inner side and the crest of the ridge is parallel to the first and second edges. The concave surface is between an inner edge forming surface and the ridge, and the planar surface is adjacent to the concave surface and between that first inner edge forming surface and the concave surface. A reference plane intersects the first and second edges, and a distance between any point on the concave surface and the reference plane is not less than a distance between any point on the planar surface and the reference plane. | 05-28-2009 |