초록 ▼

A dispensing pump (10) for liquids, viscous materials, foams, gels, etc. includes a resilient cup spring (18) so that the entire pump can be more easily recycled. The dispensing pump (10) includes a base portion (12), an inlet valve (14), a piston valve (16), a cup spring (18), a spring guide struct

A dispensing pump (10) for liquids, viscous materials, foams, gels, etc. includes a resilient cup spring (18) so that the entire pump can be more easily recycled. The dispensing pump (10) includes a base portion (12), an inlet valve (14), a piston valve (16), a cup spring (18), a spring guide structure (20) and a pump actuator (22). When actuated, the cup spring (18) is elastically deformed over opposing spring ribs (39), and then upon release, the cup (18) elastically returns to its normal at rest shape, returning the guide (20) and pump actuator (22) to their normal at rest positions. The cup spring (18) includes structures which interact with the piston valve (16) to open the outlet valve.

대표청구항 ▼

1. A dispensing pump comprising: a base portion having a bottom wall and an upwardly extending sidewall, said bottom wall including a centrally located entrance orifice, said base portion further having a flow conduit extending upwardly from an inner surface of the bottom wall and surrounding the en

1. A dispensing pump comprising: a base portion having a bottom wall and an upwardly extending sidewall, said bottom wall including a centrally located entrance orifice, said base portion further having a flow conduit extending upwardly from an inner surface of the bottom wall and surrounding the entrance orifice;an inlet valve received within the entrance orifice, said inlet valve being slidably movable between a normal closed position where the inlet valve is seated within the entrance orifice and an open position where the inlet is unseated from the entrance orifice;a piston valve having a lower end received within the flow conduit, an upper end and an outlet opening adjacent the upper end;a cup spring having an annular upper wall and a downwardly depending outer sidewall,said cup spring further including an inner piston wall extending downwardly from the upper wall,said base portion including at least two opposed spring ribs extending upwardly from the bottom wall,said cup spring being received within the base portion such that the upper end of the piston valve is concentrically received within the inner piston wall, an outer surface of the inner piston wall is disposed concentrically within the flow conduit, and the outer sidewall of the cup spring is seated on the spring ribs,said upper end of said piston valve engaging and cooperating with said inner piston wall to form an outlet valve,said piston valve being slidably movable within the flow conduit and within the inner piston wall;a guide structure having a top wall and an outer sidewall depending downwardly and outwardly from the top wall,said guide structure being received within the base portion wherein a terminal outer edge of the outer sidewall of the guide structure is slidably received within the upwardly extending sidewall of the base portion,said guide structure being slidably movable within the base portion; anda pump actuator having a top wall, sidewalls and a dispensing orifice, the pump actuator being received over the guide structure and within the base portion where the dispensing orifice communicates with an outlet orifice of the guide structure, said pump actuator being slidably movable within the base portion,whereby forcible downward compression of the pump actuator causes a deformation of the cup spring over the spring ribs and forces material within the flow conduit to flow out of a nozzle, andwhereby upon release of the pump actuator the cup spring elastically returns to its normal at-rest shape and draws material into the flow conduit through the entrance orifice. 2. The dispensing pump of claim 1 wherein said base portion includes at least 3 or more equally spaced spring ribs. 3. The dispensing pump of claim 2 wherein said spring ribs have a ramped outer edge with a radius smaller than the outer sidewall of the cup spring at a top end thereof and a radius larger than the outer sidewall of the cup spring at a bottom end thereof. 4. The dispensing pump of claim 3 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 5. The dispensing pump of claim 2 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 6. The dispensing pump of claim 1 wherein said spring ribs have a ramped outer edge with a radius smaller than the outer sidewall of the cup spring at a top end thereof and a radius larger than the outer sidewall of the cup spring at a bottom end thereof. 7. The dispensing pump of claim 6 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 8. The dispensing pump of claim 1 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 9. A dispensing pump comprising: a base portion having a bottom wall and an upwardly extending sidewall, said bottom wall including a centrally located entrance orifice, said base portion further having a flow conduit extending upwardly from an inner surface of the bottom wall and surrounding the entrance orifice;an inlet valve received within the entrance orifice, said inlet valve being slidably movable between a normal closed position where the inlet valve is seated within the entrance orifice and an open position where the inlet is unseated from the entrance orifice to allow material to flow into the flow conduit;a piston valve having a lower end received within the flow conduit, an upper end and an outlet opening adjacent the upper end;a cup spring having an annular upper wall and a downwardly depending outer sidewall,said cup spring further including an inner piston wall extending downwardly from the upper wall,said base portion including at least two opposed spring ribs extending upwardly from the bottom wall,said cup spring being received within the base portion such that the upper end of the piston valve is concentrically received within the inner piston wall, an outer surface of the inner piston wall is disposed concentrically within the flow conduit, and the outer sidewall of the cup spring is seated on the spring ribs,said upper end of said piston valve engaging and cooperating with said inner piston wall to form an outlet valve,said piston valve being slidably movable within the flow conduit and within the inner piston wall;a guide structure having a top wall and an outer sidewall depending downwardly and outwardly from the top wall,said guide structure being received within the base portion wherein a terminal outer edge of the outer sidewall of the guide structure is slidably received within the upwardly extending sidewall of the base portion,said guide structure being slidably movable within the base portion; anda pump actuator having a top wall, sidewalls and a dispensing orifice, the pump actuator being received over the guide structure and within the base portion where the dispensing orifice communicates with an outlet orifice of the guide structure, said pump actuator being slidably movable within the base portion,whereby forcible downward compression of the pump actuator causes a corresponding downward movement of the guide structure, a corresponding guided downward movement and deformation of the cup spring over the spring ribs, a corresponding sliding movement of the inner piston wall of the cup spring relative to the upper end of the piston valve to open the outlet valve and a corresponding downward sliding movement of the piston valve to force material within the flow conduit to flow out through the outlet valve, the outlet orifice of the guide structure and the dispensing orifice of a nozzle, andwhereby upon release of the pump actuator the cup spring elastically returns to its normal at-rest shape causing a forcible upward movement of the guide structure and pump actuator, a corresponding sliding movement of the inner piston wall of the cup spring relative to the upper end of the piston valve to close the outlet valve, and a corresponding upward sliding movement of the piston valve, which in turn creates a vacuum pressure within the flow conduit drawing the inlet valve from its normally closed position to its open position and drawing material into the flow conduit through the entrance orifice. 10. The dispensing pump of claim 9 wherein said base portion includes at least 3 or more equally spaced spring ribs. 11. The dispensing pump of claim 10 wherein said spring ribs have a ramped outer edge with a radius smaller than the outer sidewall of the cup spring at a top end thereof and a radius larger than the outer sidewall of the cup spring at a bottom end thereof. 12. The dispensing pump of claim 11 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 13. The dispensing pump of claim 10 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 14. The dispensing pump of claim 9 wherein said spring ribs have a ramped outer edge with a radius smaller than the outer sidewall of the cup spring at a top end thereof and a radius larger than the outer sidewall of the cup spring at a bottom end thereof. 15. The dispensing pump of claim 14 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring. 16. The dispensing pump of claim 9 wherein said upper wall of said cup spring and said top wall of said guide structure have interfitting formations to facilitate guided movement of the cup spring.