The device has two arms connected together at a first end. At the second end of the first arm the device has a gripping member. At the second end of the second arm is a slitting member. The gripping member and slitting member meet together in order to puncture and tear open a snack bag. A gripping surface on the interior surface of each arm are able to grip the cap of a bottle or jar to assist in opening.

The device has two arms connected together at a first end. At the second end of the first arm the device has a gripping member. At the second end of the second arm is a slitting member. The gripping member and slitting member meet together in order to puncture and tear open a snack bag. A gripping surface on the interior surface of each arm are able to grip the cap of a bottle or jar to assist in opening.

A method for making a modular realty signpost comprises providing a first vertical sign component made from extruded vinyl tubing and a second horizontal sign component made from extruded vinyl tubing, said horizontal component sized and designed to intersect and connect within the vertical component. The method makes angled cuts into one end of the vertical component and at least one end of the horizontal component, heats the angled cuts and then folds them together to form tapered tips to at least one end of said components.

A method for making a modular realty signpost comprises providing a first vertical sign component made from extruded vinyl tubing and a second horizontal sign component made from extruded vinyl tubing, said horizontal component sized and designed to intersect and connect within the vertical component. The method makes angled cuts into one end of the vertical component and at least one end of the horizontal component, heats the angled cuts and then folds them together to form tapered tips to at least one end of said components.

A slitting tool configured for fine-tuning thereof includes basic body, which in turn includes a body portion and a cutting portion extending therefrom. The slitting tool includes a biasing screw which is seated in a biasing bore and is configured to adjust the position of the cutting portion. The biasing screw is configured to engage a biasing surface of the body portion to adjust the cutting portion's position. The biasing surface is oblique relative to the biasing screw for retarding movement of the biasing screw a fine-tuned position.

A slitting tool configured for fine-tuning thereof includes basic body, which in turn includes a body portion and a cutting portion extending therefrom. The slitting tool includes a biasing screw which is seated in a biasing bore and is configured to adjust the position of the cutting portion. The biasing screw is configured to engage a biasing surface of the body portion to adjust the cutting portion's position. The biasing surface is oblique relative to the biasing screw for retarding movement of the biasing screw a fine-tuned position.

A motion-activated venting system for incorporation into an article of apparel is described herein. The motion-activated venting system may comprise a variety of pleats having one or more folded edges and a ventilation region having a plurality of apertures. In a first state, the one or more folded edges overlie the ventilation region such that the plurality of apertures is covered. In a second state, the one or more folded edges are remote from the ventilation region such that the plurality of apertures is exposed. Further, in an intermediate state, the motion-activated venting system is partially open, thereby exposing a portion of the plurality of apertures.

A motion-activated venting system for incorporation into an article of apparel is described herein. The motion-activated venting system may comprise a variety of pleats having one or more folded edges and a ventilation region having a plurality of apertures. In a first state, the one or more folded edges overlie the ventilation region such that the plurality of apertures is covered. In a second state, the one or more folded edges are remote from the ventilation region such that the plurality of apertures is exposed. Further, in an intermediate state, the motion-activated venting system is partially open, thereby exposing a portion of the plurality of apertures.

Process and apparatus for recycling multi-compartment unit dose articles to avoid significant cross-contamination between the contents of the individual compartments.

Process and apparatus for recycling multi-compartment unit dose articles to avoid significant cross-contamination between the contents of the individual compartments.