Claims
- 1. A manually-actuated spray pump for dispensing a fluid, said spray pump comprising:
- (a) a nozzle rough which said fluid is dispensed; and
- (b) a pumping engine comprising a reservoir, a closure, and a plunger, said reservoir having an open top and a closed bottom and an interior surface, said plunger having an outer surface and a longitudinal passageway extending therethrough, said plunger further having an outlet valve mounted therein and an upper end and a lower end, said lower end being slidably disposed within said open top of said reservoir forming an interior chamber, said interior chamber having an annular chamber and a main chamber, said plunger further having a peripheral ring which is affixed to said outer surface and is in slidable contact with said interior surface, said peripheral ring separates said annular chamber from said main chamber, said peripheral ring having a flow path therethrough allowing said annular chamber to be in fluid communication with said main chamber, said closure being attached to said open top of said reservoir allowing said plunger to slidably extend through said closure such that said interior chamber is sealingly closed, said nozzle being mounted on said upper end of said plunger such that said longitudinal passageway is in fluid communication with said nozzle, said interior chamber being separated from said longitudinal passageway by said outlet valve, and
- said spray pump being operable in response to the application of an actuation force upon said nozzle causing said plunger to move within said reservoir and pressurize said fluid within said interior chamber such that a high hydraulic pressure is generated within said interior chamber in response to the movement of said plunger, said outlet valve opening in response to said high hydraulic pressure thereby allowing a portion of said fluid to flow from said interior chamber through said longitudinal passageway to said nozzle, wherein said actuation force used to generate said high hydraulic pressure is lower compared to conventional spray pumps.
- 2. The manually-actuated spray pump for dispensing a fluid according to claim 1 wherein said peripheral ring is spaced away from said interior surface and said peripheral ring further comprises an upper sealing surface extending substantially upward and radially outward from said peripheral ring and a lower sealing surface extending substantially downward and radially outward from said peripheral ring, said upper sealing surface and said lower sealing surface in slidable sealing contact with said interior surface and said annular chamber is partially formed between said outer surface and said upper sealing surface.
- 3. The manually-actuated spray pump for dispensing a fluid according to claim 2 wherein said flow path extends axially through said peripheral ring.
- 4. The manually-actuated spray pump for dispensing a fluid according to claim 1 wherein said peripheral ring is integral to said plunger.
- 5. A manually-actuated spray pump for dispensing a fluid, said spray pump comprising:
- (a) a nozzle having a channel through which said fluid is dispensed; and
- (b) a pumping engine comprises a reservoir having an open top and a closed bottom and an interior surface, a closure having an inner lip, and a plunger having an outer surface and a longitudinal passageway extending therethrough, said plunger further having an outlet valve mounted therein and an upper end and a lower end, said lower end being slidably disposed within said open top of said reservoir forming an interior chamber, said interior chamber having an annular chamber and a main chamber, a peripheral ring is affixed to said plunger at said lower end, said peripheral ring separates said annular chamber from said main chamber, said peripheral ring having a flow path extending axially therethrough allowing said annular chamber to be in fluid communication with said main chamber, said peripheral ring being spaced away from said interior surface and said peripheral ring further having an upper sealing surface extending to said interior surface and a lower sealing surface extending to said interior surface, said upper sealing surface and said lower sealing surface are in slidable sealing contact with said interior surface of said reservoir, said upper sealing surface is substantially longer than said lower sealing surface, said annular chamber is formed between said upper sealing surface and said outer surface and between said interior surface and said outer surface, said closure being attached to said open top of said reservoir by said inner lip allowing said plunger to slidably extend through said closure such that said interior chamber is sealingly closed, said main chamber is formed of a remainder of said interior chamber extending to said closed bottom, said closed bottom having a valve seat and a ball forming an inlet valve allowing fluid to enter said interior chamber, said nozzle mounted on said upper end of said plunger such that said longitudinal passageway is in fluid communication with said channel, said interior chamber being separated from said longitudinal passageway by said outlet valve, and
- said spray pump being operable in response to the application of an actuation force upon said nozzle causing said plunger to move within said reservoir and pressurize said fluid within said interior chamber such that a high hydraulic pressure is generated within said interior chamber in response to the movement of said plunger, said outlet valve opening in response to said high hydraulic pressure thereby allowing a portion of said fluid to flow from said interior chamber through said longitudinal passageway to said nozzle, wherein said actuation force used to generate said high hydraulic pressure is lower compared to conventional spray pumps.
Parent Case Info
This is a division of application Ser. No. 08/568,211, filed on Dec. 6, 1995.
US Referenced Citations (80)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0309001 A2 |
Mar 1989 |
EPX |
3 427 793 |
Feb 1986 |
DEX |
2 004 585 |
Apr 1979 |
GBX |
Non-Patent Literature Citations (3)
Entry |
Mark IV Fine Mist Sprayer Fact Sheet--1994 Calmar Dispensing Systems, Inc. |
M300 brochure from Calmar Dispensing Systems. |
"Atomization and Sprays 2000", Workshop Sponsored by the National Science Foundation, edited by Norman Chigier, Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA (pp. 1-25). |
Divisions (1)
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Number |
Date |
Country |
Parent |
568211 |
Dec 1995 |
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