Abstract: A cleaning implement having a liquid delivery system, includes a handle with first and second ends, a cleaning head member attached to the handle at the first end, and a sprayer nozzle preferably attached to the cleaning head member, independent of the handle, for providing increased directional control of the sprayer nozzle.
Type:
Grant
Filed:
November 26, 1996
Date of Patent:
March 30, 1999
Assignee:
The Procter & Gamble Company
Inventors:
Vernon S. Ping, Steven M. Schennum, Noelle M. Dye, John D. Gundlach
Abstract: A dosing and dispensing device for liquid detergent has a hollow body and a dispenser. The hollow body has an opening for receiving liquid detergent. The dispenser spreads the liquid detergent onto a fabric to pretreat the fabric. The dispenser has a cavity and a ball positioned within the cavity. The cavity has a mouth, lips, and an orifice. The ball is retained by the lips and communicates with the orifice. The diameter of the mouth is at least slightly smaller than the diameter of the ball such that the ball protrudes partly outside of the mouth. In addition, the ball rotates freely in all directions within the cavity.
Abstract: A slide trigger for a liquid delivery system has a handle and a retractable trigger assembly. The handle has a grip portion and a barrel portion with a guide. The trigger assembly has a slide which travels freely within the guide and a trigger portion attached to the slide which activates the liquid delivery system when the trigger portion is retracted.
Abstract: A paperboard carton providing improved dispensing of a granular detergent, the carton having a box having a back panel and a front panel, and having a top opening, and a lid integrally attached to the back panel along a first score line. The carton has at least one additional score line parallel to and spaced apart from the first score line and a slit substantially through the back panel at each side edge of the back panel from the first score line to the additional score line.
Abstract: The present invention relates to a dosing cap (20) which is a measuring cup adapted to serve as a liquid tight closure. Said dosing cap is lightweighted by providing a wall with two different thicknesses. The thinner walled part (26) is inserted into the neck of the container to achieve the necessary closure. The thicker walled rest of said dosing cap (28) remains outside and serves as a gripping means to open the corresponding container (10).
Abstract: An anti-backoff closure assembly includes a container and a cap. The container has a neck portion forming an opening and having a protrusion and screw threads on an outer surface of the neck portion. The cap has on an inner surface a second protrusion, grooves, and a seal for releasably engaging the opening of the neck portion to form a leak free seal. The first and second protrusions engage to create an interference fit when the screw threads and the grooves are threadably engaged. Upon engagement, the second protrusion deforms the first protrusion sufficiently to form an indentation on the first protrusion that resists backoff as the pressure between the screw threads and the grooves is reduced as a result of plastic relaxation, thereby maintaining the leak free seal of the seal within the opening.
Abstract: A safety valve for retaining liquid in an inverted, liquid-filled canister inserted within a receptacle having an outlet, includes a valve having a base and a head, a retainer attached to the receptacle, the retainer having a compartment for receiving the valve base and at least one passage for allowing the liquid to flow through at least one passage when the valve is disengaged, and a spring positioned within the compartment, telescopically engaging the valve base, for providing a sealing force on the valve, wherein the valve head engages the outlet of the receptacle for retaining the liquid within the canister when the spring force exceeds the hydrostatic force of the liquid within the canister and the weight of the valve.
Type:
Grant
Filed:
November 26, 1996
Date of Patent:
December 1, 1998
Assignee:
The Procter & Gamble Company
Inventors:
Steven M. Schennum, Christopher M. Miller
Abstract: A quick disconnect has a first member having an outlet with at least one passageway, an umbrella valve movably attached within the outlet for sealing the passageway, and a second member having an inlet with at least one finger which releasably engages the passageway and displaces the umbrella valve when the first and second members are removably engaged, thereby unsealing the umbrella valve from the passageway and allowing open communication from the outlet to the inlet.
Type:
Grant
Filed:
November 26, 1996
Date of Patent:
December 1, 1998
Assignee:
The Procter & Gamble Company
Inventors:
Steven M. Schennum, Reuben E. Oder, Christopher M. Miller, John J. Schwartz, Vernon S. Ping
Abstract: The present invention relates to a dosing and dispensing device for granular detergent. The device comprises a pliable bag-shaped sleeve and a maintaining means. The maintaining means plunges into the bag, of which one end is fastened in the region of the opening. Said maintaining means are collapsible and resilient. Therefore the dosing and dispensing device according to the present invention can be brought into a collapsed configuration.
Abstract: A decoupled liquid delivery system positioned within a housing for dispensing a liquid from a liquid filled canister includes a cylinder having an inlet for receiving the liquid and an outlet for dispensing the liquid, a piston moveably engaging the cylinder for exerting pressure on the liquid when the piston is actuated, a compression spring connected to the piston and the housing, and a recoil spring connected to the piston and the housing to prevent the piston from moving prior to actuation. The piston is actuated by disengaging the recoil spring from the piston which allows the compression spring to exert a force on the piston, thereby enabling the piston to exert a pressure on the liquid within the cylinder and dispense the liquid from the outlet.
Inventors:
Timothy J. Beechuk, Aram J. Irwin, Christopher M. Miller, Vernon S. Ping, III, Steven M. Schennum, Jonathan J. Schwartz, James W. Settelmayer, Jr.