Hand activated dispensing pump having sprayer/foamer selector wheel

Information

  • Patent Grant
  • 6536686
  • Patent Number
    6,536,686
  • Date Filed
    Monday, March 18, 2002
    22 years ago
  • Date Issued
    Tuesday, March 25, 2003
    21 years ago
Abstract
The selector wheel is mounted to rotate about the axis of the nozzle cap, and a spray window and foaming sleeve are formed in the wheel offset from the axis. The window or sleeve is registrable with the offset spray orifice by rotating the wheel. Either window or sleeve can be brought into registry so that the discharge is spray or foam.
Description




FIELD OF THE INVENTION




This invention relates to hand-operated dispensing pumps sometimes called trigger sprayers. More specifically, this invention relates to trigger sprayers adapted to selectively emit a spray cone or a foaming discharge.




BACKGROUND OF THE INVENTION




The prior art is replete with trigger sprayers of various types. An example is disclosed in the McKinney U.S. Pat. No. 4,161,288 wherein the pump comprises a vertically disposed cylinder having a piston stroking as a trigger lever is pulled back and forth. This pumps the liquid from an attached container out a delivery tube to a nozzle.




Typically, trigger sprayers are provided with a nozzle including a rotatable nozzle cap. The delivery tube from the pump usually terminates in a bushing and the cap snaps over the bushing. The delivery tube passes the liquid toward the front end of the cap where it is usually introduced tangentially into a so-called “swirl chamber” on the rear face of the front end of the cap. In the chamber the liquid increases in angular velocity as it swirls toward the orifice and finally discharges in the form of a spray cone.




A shut-off valve may be provided between the bushing and nozzle cap wherein channels in the respective parts align in use, but the flow may be cut off by rotating the cap to a “stop” position wherein the channels do not align.




In some sprayers the orifice and swirl chamber have been offset from the axis of the cap. In the Hayes U.S. Pat. No. 4,247,048, for instance, the orifice is offset and the discharge may selectively be in the form of a stream or a spray, depending on the depth of the channel on the delivery tube where it communicates with the swirl chamber.




The concept of a foaming sleeve surrounding the spray cone emitting from a trigger pump orifice is disclosed in the Shay U.S. Pat. No. 4,669,665. Here the cone engages the inside of the foaming sleeve, mixes with air, and discharges as a foam.




The further Shay U.S. Pat. No. 4,768,717 issued Sep. 6, 1988 teaches the idea of introducing air inwardly about the outside of a foaming sleeve to the rear end of the sleeve to enhance the foaming.




A number of prior patents have suggested means in a trigger sprayer for selecting either a foam or a spray type discharge. An example is disclosed in the Shay U.S. Pat. No. 4,767,060 wherein a foaming collar is reciprocably mounted on an annular support extending forward from the nozzle. The sleeve can be moved into either a forward position wherein it is engaged by the emitting spray cone produces foam, and a rearward position adjacent the orifice wherein the collar is not contacted by the spray, and the discharge is in the form of a spray.




A further disclosure of a selectable spray or foam discharge is found in the Corsette U.S. Pat. No. 4,779,803 wherein a centrally apertured plate has a plurality of rearward legs which telescope into the nozzle cap about the orifice. The plate is movable as the legs slide into the cap or out from it. The plate can be set in a position where the aperture is adjacent the orifice and does not interfere with the spray or is away from the orifice, forward of it, and is impacted by the spray to produce a foam.




More recently foam/spray discharge selectability is disclosed in the Tasaki et al U.S. Pat. No. 5,344,078 and the Foster et al U.S. Pat. No. 5,767,385. In these patents a foaming sleeve or bore is pivotally attached to the side of the nozzle cap on an axis generally perpendicular to the orifice axis so that it can be swung down from an idle position to close to the orifice so that the spray from the orifice contacts the sleeve and a foam discharge is produced.




The structure of some earlier selectable discharge pumps interfere with the symmetry of the pump nozzle. The selectable feature of earlier uses often requires an awkward lateral or forward projection which can readily break off or catch on things. Further, some of these earlier structures are not easy to use.




SUMMARY OF THE INVENTION




The present invention has for an object to provide a selector symmetrical about the nozzle axis, compact and easy to use. Briefly, the invention comprising a hand-activated pump having a nozzle cap rotatably disposed at the front end of the pump. The cap has a front end wall formed with a spray orifice offset from the axis. In the invention a sprayer/foamer selector wheel is rotatably amounted on the axis and adjacent the front end wall of the cap, the wheel incorporating a foam sleeve and a sprayer window offset from the axis. By manually rotating the wheel, the user can register the window or sleeve with the spray orifice to produce spray or foam.




In a modification the wheel may be provided with a plurality of alternating sleeves and windows, all offset from the axis. The attachment of the selector wheel to the nozzle cap may be by a snap-fastener-type connection disposed on the axis and serving as a spindle. The head may be integral with the cap, and the socket in the center of the wheel.











BRIEF DESCRIPTION OF THE DRAWINGS




Further objects and features of the invention will be clear to those skilled in the art from a review of the following specification and drawings, all of which present non-limiting forms of the invention. In the drawings:





FIG. 1

is a side view of a trigger sprayer embodying the invention;





FIG. 2

is a greatly enlarged exploded perspective view of the nozzle cap and selector wheel embodying the invention;





FIG. 3

is an enlarged front elevation of the selector wheel;





FIG. 4

is a rear view of the selector wheel;





FIG. 5

is a rear view of the nozzle cap;





FIG. 6

is a sectional view taken on the line


6





6


of FIG.


5


and including the assembled selector wheel, cap and nozzle bushing; and





FIG. 7

is an exploded perspective view of the nozzle cap and a modified form of selector wheel.











DESCRIPTION OF THE PREFERRED EMBODIMENT




A trigger sprayer embodying the invention is generally designated


10


in FIG.


1


. It comprises a body


12


including an attachment closure


14


for a container, and a pivoted trigger


16


. At the forward end of the body is a nozzle including a rotatable nozzle cap


18


. This cap may be rotated to turn the liquid “off” or “on”.





FIG. 2

, an exploded view, shows the nozzle cap


18


as a tapered polygon having a front end


20


and a spray orifice


22


. On the axis a of the cap and nozzle at the front end


20


is a fastener head


24


. The head


24


has a frusto-conical forward surface


24




a


and includes a neck


26


. The head and neck are integrally molded with the cap and are radially slotted at 90° intervals to give the head resilience in its diametrical dimension. Preferably, the head includes a retaining shoulder


28


(

FIG. 6

) facing the end wall


20


. The shoulder is abrupt as taught, for instance, in the U.S. Pat. No. 3,210,820 to Humiston disclosing a “one-way” snap fastener wherein the head is permanently held on the socket after first snapping on.




Rotatably mounted on the axis of the cap


20


, or more specifically, on the head


24


, is the foam/spray selector wheel


30


. The head


24


and neck


26


serve as a spindle for the wheel. The wheel is formed with a central opening or socket


32


which, in assembly, is pushed over the head


24


. Because of its frustoconical surfaces


24




a


, the head passes the socket


32


as the head segments cam inward. The socket then snaps past the head and the wheel comes to rest against the end wall


20


with the retaining shoulder


28


engaging an adjacent annular surface of the wheel (FIG.


6


).




Preferably, the selector wheel


30


also has its circumference in the form of a tapered polygon blending into the shape of the nozzle cap


18


. The dimensions of the neck


26


and socket are such that the shoulder


28


on the head


24


holds the wheel in position. The wheel is freely turnable on the head/neck


26


.




Formed on the wheel, a foaming sleeve


38


is disposed parallel to the axis a and spaced away from that axis at equal offset with the orifice


22


so that it may be positioned co-axial with the orifice


22


. Opposite the foaming sleeve


38


is a recessed shelf


40


partly cut away to form an open window


42


, the middle of the window being generally the same distance away from the axis a as the orifice


22


.




Preferably, the side walls


44


of the wheel, except for the notched-out portion


46


adjacent the window


42


, are the same length as the foaming sleeve


38


. Thus, there are no forward projections as would be the case if the thickness of the wheel were less than the length of the sleeve


38


.




In the operation of trigger sprayers embodying the invention, the nozzle cap is first turned until in the “on” indicia faces upward, causing the aforesaid internal channels to align. Next, the wheel


30


is turned so that either “foam” or “spray” (not shown) face upward, positioning either the sleeve


38


or the window


42


over the orifice


22


. To assure proper annular positioning registering of the wheel, detents, (not shown) such as nibs or dimples, may be provided on the face of the end wall


20


to cooperate with corresponding dimples or nibs on the rear wall of the wheel.




To provide for additional air to reach the rear of the foaming sleeve


38


, lateral inlets


48


may be provided in the rearward circumference of the sleeve.





FIG. 5

discloses the valving structure described hereabove. The delivery tube


50


is formed at its forward end with an enlarged flange over which the annular wall


52


inside the cap snaps. The forward end of the flange


50


is formed with inlet channels


54


which, when the pump is “on”, communicate to cut-out channels


56


in the inward annular boss


58


central of the cap. The end wall


20


is formed on its inside surface with swirl chamber


60


to which the channels


54


lead liquid tangentially of the chamber.




In the

FIG. 7

modification, the wheel


30


′ is formed with a plurality of sleeves


38


′ and windows


42


′ so that the discharge mode can be selected by rotating the wheel


30


′ on the axis a′. Because new modes come up every 90°, the adjustment requires less turning of the wheel than the

FIG. 2

embodiment. Appropriate indicia are formed on the wall


44


′. Appropriate air inlets (not shown) are notched onto the rear of the wheel for the sleeves


38


′ (as


48


in the first embodiment).




Variations in the invention are possible. Thus, while the invention has been shown in a limited number of embodiments, it is not so limited but is of a scope defined by the following claim language which may be broadened by an extension of the right to exclude others from making, using or selling the invention as is appropriate under the doctrine of equivalents.



Claims
  • 1. A nozzle cap adapted to be disposed at a front end of a pump dispenser, the cap having an axis and a front end wall formed with a spray orifice offset from the axis, and a sprayer/foamer selector wheel rotatably disposed on the axis and adjacent the front end wall, the wheel having offset from the axis a foam sleeve disposed parallel to the axis and a sprayer window, the sleeve and window adapted to register selectively with the spray orifice as the wheel is rotated on the axis.
  • 2. A nozzle cap as claimed in claim 1 wherein the axis is partly defined by a spindle on the cap and formed with a head spaced from the front end wall to cooperate with a socket on the wheel to retain the wheel on the spindle.
  • 3. A nozzle cap as claimed in claim 1 wherein the window is a cutout portion on the wheel.
  • 4. A nozzle cap as claimed in claim 1 in which a plurality of windows and foam sleeves are alternately spaced about the wheel.
  • 5. A nozzle cap as claimed in claim 1 wherein a portion of the sleeve proximate the front end of the cap is notched to permit air to enter the sleeve.
  • 6. A sprayer/foamer wheel having an axis and adapted to be rotatably mounted on a spindle and adjacent a front end wall of a nozzle cap of a pump dispenser, the wheel having offset from the axis a foam sleeve and a non-foam window adapted to register selectively with a spray orifice on the nozzle cap as the wheel is rotated on the spindle.
  • 7. A sprayer/foamer wheel as claimed in claim 6 wherein the window is a cutout portion in the wheel.
  • 8. A spray/former wheel as claimed in claim 6 in which a plurality of windows and foam sleeves are alternately spaced about the wheel.
CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of application Ser. No. 09/753,648 filed Jan. 3, 2001 now U.S. Pat. No. 6,382,527.

US Referenced Citations (7)
Number Name Date Kind
2790680 Rosholt Apr 1957 A
3982698 Anderson Sep 1976 A
4247048 Hayes Jan 1981 A
5664732 Smolen et al. Sep 1997 A
5878959 Smolen et al. Mar 1999 A
D418755 Durliat Jan 2000 S
6382527 Dukes et al. May 2002 B1
Continuations (1)
Number Date Country
Parent 09/753648 Jan 2001 US
Child 10/100317 US