A valve formed from a frustoconical piece of foldable material, having folds extending from a closable end towards the other end that connects to a container of liquid, each fold having an inner crease extending into the interior region of the nozzle. The valve has a biasing mechanism that may inclu
A valve formed from a frustoconical piece of foldable material, having folds extending from a closable end towards the other end that connects to a container of liquid, each fold having an inner crease extending into the interior region of the nozzle. The valve has a biasing mechanism that may include a spiral spring encircling a nozzle to bias the inner creases inward to cause them to abut each other at the closable end so that the valve is maintained in a closed position. When liquid is forced into the interior region under sufficient pressure it causes the nozzle to move from the closed position to an open position so liquid flows from the interior region out the closable end of the nozzle, and when the pressure on the liquid is removed, the biasing mechanism causes the nozzle to move back to the closed position.
대표청구항▼
1. A pressure-activated valve for dispensing a liquid, the valve comprising (a) a dispensing nozzle having an interior region, the nozzle being formed from a frustoconical piece of foldable material having proximal and distal ends, each end having a centre, the nozzle having a longitudinal axis pass
1. A pressure-activated valve for dispensing a liquid, the valve comprising (a) a dispensing nozzle having an interior region, the nozzle being formed from a frustoconical piece of foldable material having proximal and distal ends, each end having a centre, the nozzle having a longitudinal axis passing through the centres of the proximal and distal ends, the nozzle comprising a plurality of folds extending from the distal end towards the proximal end, each fold having an inner crease, the nozzle having a closed position in which the inner creases abut each other at the distal end so that the liquid cannot pass through the distal end from the interior region, and having open positions in which the inner creases at the distal end are spaced apart from each other to allow the liquid to pass through the distal end from the interior region,(b) a biasing mechanism to bias the nozzle into the closed position, and(c) a container attachment mechanism attached to the proximal end of the nozzle for attaching the nozzle to a container containing the liquid so that the liquid can pass from the container into the interior region,wherein, when the liquid is forced into the interior region under sufficient pressure it causes the nozzle to move from the closed position to one of the open positions so that the liquid flows from the interior region out through the distal end of the nozzle, and when the pressure on the liquid is removed, the biasing mechanism causes the nozzle to move back to the closed position, and wherein each fold further comprises two outer creases, wherein each outer crease is shared with an adjacent fold, the portion of the nozzle situated between each crease being a panel, so that two panels are adjacent to each outer crease. 2. The valve of claim 1, wherein the proximal end of the nozzle forms a circle. 3. The valve of claim 1, wherein the nozzle comprises at least 8 folds. 4. The valve of claim 3, wherein the nozzle comprises at least 16 folds. 5. The valve of claim 3, wherein the nozzle comprises no more than 32 folds. 6. The valve of claim 5, wherein the nozzle comprises no more than 16 folds. 7. The valve of claim 1, wherein the widths of the panels at each point on the longitudinal axis, the width being the distance from the inner crease to the outer crease in a plane parallel to the proximal end of the nozzle passing through the point on the longitudinal axis, are equal. 8. The valve of claim 1, wherein each crease is sharp so that each crease defines a line extending from the distal end of the nozzle to the proximal end of the nozzle, and the panels are flat and pivot around the creases when the nozzle moves between open and closed positions, and the two panels adjacent to each outer crease abut each other at the distal end of the nozzle when the nozzle is in the closed position. 9. The valve of claim 8, wherein the lines defined by the creases are straight. 10. The valve of claim 8, wherein the lines defined by the creases are curved in the same manner. 11. The valve of claim 8, wherein the biasing mechanism comprises a helical spring adapted to pass through one or more openings in each panel, the openings being arranged helically. 12. The valve of claim 11, wherein the spring is disposed within a helical tube, the tube being adapted to pass through the openings in the panels, wherein the tube engages each panel at the one or more openings to form a liquid-tight seal, preventing the liquid in the interior region from passing though the openings. 13. The valve of claim 12, wherein the tube is made of the same material as the nozzle. 14. The valve of claim 1, wherein the biasing mechanism comprises a helical spring adapted to encircle the nozzle so that it exerts pressure on the folds towards the longitudinal axis to bias the nozzle into the closed position. 15. The valve of claim 1, wherein the biasing mechanism comprises a base portion, attached to the proximal end of the nozzle, and a plurality of fingers extending from the base portion, the fingers arranged so that each finger runs along the outside of one of the inner creases to bias the inner crease towards the longitudinal axis, and one finger runs along each inner crease. 16. The valve of claim 15, wherein the base portion and fingers of the biasing mechanism are integrally formed. 17. The valve of claim 15, wherein each crease is sharp so that each crease defines a line extending from the distal end of the nozzle to the proximal end of the nozzle, and the lines defined by the creases are curved in the same manner. 18. A pressure-activated valve for dispensing a liquid, the valve comprising (a) a dispensing nozzle having an interior region, the nozzle being formed from a frustoconical piece of foldable material having proximal and distal ends, each end having a centre, the nozzle having a longitudinal axis passing through the centres of the proximal and distal ends, the nozzle comprising a plurality of folds extending from the distal end towards the proximal end, each fold having an inner crease, the nozzle having a closed position in which the inner creases abut each other at the distal end so that the liquid cannot pass through the distal end from the interior region, and having open positions in which the inner creases at the distal end are spaced apart from each other to allow the liquid to pass through the distal end from the interior region,(b) a biasing mechanism to bias the nozzle into the closed position, and(c) a container attachment mechanism attached to the proximal end of the nozzle for attaching the nozzle to a container containing the liquid so that the liquid can pass from the container into the interior region, wherein, when the liquid is forced into the interior region under sufficient pressure it causes the nozzle to move from the closed position to one of the open positions so that the liquid flows from the interior region out through the distal end of the nozzle, and when the pressure on the liquid is removed, the biasing mechanism causes the nozzle to move back to the closed position, and wherein the biasing mechanism comprises a helical spring adapted to encircle the nozzle so that it exerts pressure on the folds towards the longitudinal axis to bias the nozzle into the closed position.
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