Drain-back spout fitment closure with drip-less pour tip

A snap on, drain back fitment closure for a container, wherein the drain back pour spout fitment has a snap fit structure overlaying a container or bottle neck finish and which may be secured thereto with adhesives. The snap fit structure has an outer annular skirt with an internal, radial inwardly facing bead engaging a radial outwardly facing surface of the bottle finish. Spaced from the outer annular skirt by a horizontal upper flange, the spout fitment includes an inner annular skirt with internal threads on the fitment to receive an externally threaded closure. The closure has a plug seal above the threads engaging the fitment. Further the pour spout has a radial outwardly extending drip-less pour spout at an end thereof.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to drain-back pour spout closures for containers and more specifically to drain-back, snap-on pour spout fitment closures for containers with drip-less pour tip and tamper evident features.

2. Background of the Invention

Drain-back pour spouts are very well known in the art. One class of drain back pour spouts forms the spout as a fitment attached to a separate container with a separate closure for the fitment. One subset of this class is those devices having the closure, or cap, attached to the bottle and another subset is having the cap attached to the fitment or pour spout. A second class of drain-back pour spouts is one in which the spout is formed integral with the container, in other words the spout forms a specialized finish (e.g. neck finish) for the container. In this class the closure is always connected directly to the container since there is no separate fitment. A review of the representative prior art will further clarify the state of the art.

U.S. Pat. Nos. 6,464,106 and 6,431,401, both assigned to Lever Brothers Company, disclose a drain back converging nozzle spout fitment secured to a container opening with an external ridge engaging an internal ring on the container. A closure or cap is threaded onto the container over the fitment to close the container opening.

U.S. Pat. No. 6,398,076, assigned to Unilever Home& Personal Care USA, discloses a variety of drain back, snap on, cylindrical nozzle, pour spout fitments with inside of the spout (also called the gutter or apron) not extending below outer connecting flange of the fitment.

U.S. Pat. No. 6,375,041 discloses a container with an integral (or separate) drain back, converging nozzle neck finish (or fitment if it is separate) with a cap or closure threaded onto the spout portion, wherein the cap includes a reservoir for holding a concentrated product, e.g. detergent. If separate the fitment would be apparently press fit or welded to the container opening.

U.S. Pat. No. 6,279,789, assigned to Owens-Brockway Plastics Products, Inc., discloses a variety of spout (both integral with the container and as separate fitments) and closure configurations with the cap or closure including a disk with a metallic under-layer for induction welding to associated structure. One embodiment shown inFIG. 3includes a fitment secured within the container finish with the cap threaded to the fitment with internal threads on the fitment.

U.S. Pat. No. 6,223,946, assigned to Owens-Illinois Closures, Inc., discloses a bottle with integral drain back spout and closure configuration with threads formed on the neck of the bottle engaging the closure directly.

U.S. Pat. No. 6,223,945, assigned Lever Brothers Company, discloses a specific three layer bottle composition for the fitment and closure of U.S. Pat. No. 6,464,106 discussed above.

U.S. Pat. No. 6,209,762, assigned to Owens-Illinois Closures, Inc., discloses a bottle with snap in drain back spout configuration having a projecting lug and receiving slot for positioning of the fitment.

U.S. Pat. No. 6,123,231, assigned to Owens-Brockway Plastics Products, Inc., discloses a one piece bottle with integral drain back spout configuration.

U.S. Pat. No. 6,032,829, assigned to Owens-Illinois Closures, Inc., discloses a bottle with integral spout and closure configuration with threads formed on the neck of the bottle engaging the closure directly.

U.S. Pat. No. 5,941,422, assigned to Owens-Brockway Plastics Products, Inc. discloses a bottle, drain back spout fitment and closure configuration with a unique bottle neck finish having a radial inwardly annular wall and an axial wall extending upwardly and away from the inner extending wall. The fitment has a depending apron extending over the neck finish and welded thereto.

U.S. Pat. No. 5,855,299, assigned to Graham Packaging Corporation, discloses a drain back spout fitment configuration with an inner radial outwardly facing annular bead engaging a shoulder of the bottle neck.

U.S. Pat. No. 5,794,803, assigned to Rexam Closures, Inc., discloses a drain back spout fitment configuration with a cap threaded onto threads of the bottle and with a child safety lock mechanism between the bottle and the cap, wherein the latch release on the cap is biased in a radial direction away from the bottle.

U.S. Pat. No. 5,603,787, assigned to Innovative Molding Inc., discloses a method of assembly of a bottle with a pour back spout configuration with an annular solid wall and the pour back feature being formed in an opening in the outer wall or trough. The method includes ultrasonic welding of the pour spout fitment to the container.

U.S. Pat. No. 5,597,090 discloses a spout fitment configuration with a “v” shaped notch at the terminal end. The cap is threaded to the bottle over the spout fitment.

U.S. Pat. Nos. 5,566,862 and 5,462,202, both assigned to Owens-Illinois Plastics Products, Inc. disclose a drain back spout fitment configurations with an annular solid wall and the pour back feature being formed in an extended opening in the outer wall. The closure is threaded onto the bottle over the fitment.

U.S. Pat. No. 5,431,306, assigned to Innovative Molding Inc., discloses a drain back spout fitment configuration with an annular top flange bonded to an upper end of the bottle neck finish. The closure is threaded to the fitment with external threads on the closure engaging internal threads on the fitment below a sealing portion there-between.

U.S. Pat. No. 5,251,788, assigned to Phoenix Closures, Inc., discloses a bottle, drain back frusto-conical or converging nozzle spout fitment and cap configuration. The bottle includes a threaded neck to receive the threaded spout. The cap is threaded to an upper portion of the annular wall.

U.S. Pat. No. 5,234,130, assigned to Manhattan Products, discloses a bottle, drain back pour spout fitment and cap configuration. The bottle includes an internal neck finish recess to engage a retaining member on the spout and allow the cap to seal against the bottle finish.

U.S. Pat. No. 5,207,356, assigned to Owens-Illinois Plastics Products, Inc., discloses a bottle with an integral spout and cap configuration.

U.S. Pat. No. 5,131,566, assigned to Proctor & Gamble Company, discloses a package assembly with a “refill facilitating” drain back spout having piecing serrations on the spout. An associated closure is not disclosed.

U.S. Pat. No. 5,114,659, assigned to Owens-Illinois Plastic Products Inc., discloses a method of making a one piece bottle and integral drain back pour spout.

U.S. Pat. No. 5,108,009, assigned to Lever Brothers Company, discloses a bottle, drain back spout fitment and cap configuration with the cap screwed onto the container.

U.S. Pat. No. 5,058,772, assigned to Phoenix Closures, discloses a bottle, drain back pour spout fitment and cap configuration. The spout fitment is threaded to the bottle and includes external threads on an upper portion thereof for the cap to be threaded onto.

U.S. Pat. No. 4,993,605, assigned to Colgate Palmolive Co., discloses a bottle, drain back pour spout fitment and cap configuration wherein the cap engages the container (e.g. threaded bottle neck) to urge the spout fitment into sealing engagement with the neck finish.

U.S. Pat. No. 4,984,714 discloses a bottle, spout fitment and cap configuration with the cap threaded to the bottle.

U.S. Pat. No. 4,981,239, assigned to Proctor & Gamble Company, discloses a bottle with an integral spout and cap configuration.

U.S. Pat. No. 4,974,749, assigned to Colgate Palmolive Co., discloses a bottle, drain back pour spout fitment and cap configuration with a threaded bottle neck finish that the cap threads onto.

U.S. Pat. No. 4,917,270 discloses a bottle, drain back pour spout fitment and cap configuration with a threaded bottle neck finish that the cap threads onto.

U.S. Pat. No. 4,917,269, assigned to Owens-Illinois Plastics Products, Inc., discloses a bottle with an integral spout and cap configuration.

U.S. Pat. No. 4,917,268, assigned to The Clorox Company, discloses a bottle, drain back pour spout fitment and cap configuration with a special interlocking and centering feature between the bottle neck finish and the fitment. The cap is threaded onto the bottle.

U.S. Pat. No. 4,890,770 discloses a unique bottle spout and cap configuration with an inside drainage passage between the cap and the outside of the spout.

U.S. Pat. No. 4,863,067, assigned to Owens-Illinois Plastics Products, Inc. discloses a bottle with an integral spout and cap configuration.

U.S. Pat. No. 4,836,419 discloses a drain back spout fitment and cap configuration with a drain in the apron or floor portion adjacent the spout. The drain back opening has a blocking mechanism to selectively block the opening. The cap is threaded external threads on the fitment on an apron around the bottle opening.

U.S. Pat. No. 4,830,234 discloses a bottle, drain back pour spout fitment and cap configuration with a threaded bottle neck finish that the cap threads onto.

U.S. Pat. No. 4,773,560 discloses a bottle, drain back pour spout fitment and cap configuration with a threaded bottle neck finish that the cap threads onto.

U.S. Pat. No. 4,706,829, assigned to Owens-Illinois Closure, Inc., discloses a bottle, drain back pour spout fitment and cap configuration with a threaded bottle neck finish that the cap threads onto.

U.S. Pat. No. 4,696,416, assigned to Proctor & Gamble, discloses a bottle, a drain back spout fitment threaded to the container, and cap threaded to an upper portion of the fitment, with a drip accumulator structure extending down from the drain hole.

U.S. Pat. No. 4,671,421 discloses a bottle, drain back spout fitment and cap configuration with the spout fitment engaging the inner surface of the container interconnecting the spout fitment with the bottle.

There remains a need in the art to provide a drain-back snap-on pour spout fitment closure for containers which is economical to mold and provides the desired performance features in the resulting closure. It is the object of the present invention to improve upon the prior art designs and to address this need.

SUMMARY OF THE INVENTION

The objects of the present invention are achieved with a drain-back snap-on pour spout fitment closures for containers according to the present invention. The proposed design includes a drain back pour spout fitment with a snap fit structure overlaying a container or bottle neck finish and which may be secured thereto with adhesives or by welding. The snap fit structure has an outer annular skirt with at least one internal, radial inwardly facing bead generally engaging beneath a radial outwardly facing surface of the bottle finish. Spaced from the outer annular skirt by a horizontal upper flange, the spout fitment includes an inner annular skirt with internal threads on the fitment to receive an externally threaded closure. The closure has a plug seal above the threads engaging the associated structure of the fitment generally near the upper flange of the fitment. Further the closure has, prior to the first use by a consumer, a radial outwardly facing tamper evident band engaging a radial inwardly facing interfering projections on the fitment forming a tamper evidence safety feature for the closure. The pour spout of the present invention further includes an outwardly extending drip-less pour tip at an end thereof, wherein the pour tip has a curved (adjacent dual radiuses) upper surface extending beyond the upwardly extending side surfaces of the pour spout, and wherein the pour tip is opposite from the drain back elements of the pour spout.

These and other advantages of the present invention will be clarified in the detailed description of the preferred embodiment taken together with the attached drawings.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A drain-back snap-on pour spout fitment closure10for containers or bottles (not shown) according to the present invention includes a drain back pour spout fitment20as shown inFIGS. 1-6and a closure30as shown inFIGS. 7-9attached thereto. The bottle or container structure is well known in the art as evidenced in the prior art discussed in detail above and incorporated herein by reference. The term “fitment closure” within the meaning of this application is that the fitment includes the closure thereon, as opposed to the alternative constructions of the prior art in which the closure is attached directly to the bottle or container.

The drain back pour spout fitment20is illustrated in detail inFIGS. 1-6. The fitment20is a one piece injection molded polypropylene component. The fitment includes a snap fit structure overlaying a container or bottle neck finish and which may be secured thereto with adhesives, or by welding. The snap fit structure, shown best inFIG. 4, has an outer annular skirt32with an internal, radial inwardly facing bead33generally for engaging beneath a radial outwardly facing surface of the bottle finish (not shown). A horizontal upper flange34extends inwardly from the outer annular skirt32below a top surface thereof, whereby an upper lip is formed by the skirt32. The flange34may include a sealing bead29as shown in the figures. Optionally, a plurality of ribs may be spaced about the interior of the skirt32beneath the flange34. The spout fitment20includes an inner annular skirt36(which may be formed with an offset37as shown inFIG. 1and a transition surface39discussed below) with internal threads38on the fitment20to receive the externally threaded closure30. The fitment20includes an angled apron40at a lower surface of the inner annular skirt36and extending to a central, tapered pour spout42with the pour spout42extending from the apron40to a position above the top surface of the outer annular skirt32. The spout42has an open side aligned with an opening41in a lowermost portion of the apron40to form the drain back feature.

The pour spout42includes an outwardly extending drip-less pour tip44at an end thereof. The pour tip44, shown in detail inFIG. 5, has a curved upper surface formed by two adjacent radii and extending beyond the upwardly extending side surfaces of the pour spout42for a distance greater than the width of the side surface of the pour spout. For example the side surface of the pour spout is about 0.035″ thick and the pour tip44extends 0.034″ beyond the side surface of the pour spout. The key feature of the pour tip44is providing a curved pour surface having a radius and length with a corresponding radius on the underside that in conjunction with the top radii is sufficient to minimize dripping during pouring, and this is known as drip-less pour spout technology and, by itself, is known in the art. The pour spout42in the fitment20of the invention results in a “jump feature” for molding. A jump feature is essentially a mold feature that must deform during de-molding operation. The outwardly extending pour tip44has been designed to accommodate such a molding operation (note the recessed underside of the pour tip44. The pour tip44is opposite from the drain back opening41and the open side of the pour spout42. Finally the fitment20includes several inwardly projecting ramp shaped projections46, shown inFIG. 6in detail, generally on an inner surface of the outer annular skirt32above the flange34, with the projections46forming half of a tamper evident feature as will discussed below.

The closure30is illustrated in detail inFIGS. 6-9. The closure30is a one piece injection molded polypropylene component. The closure30is a closed end cap structure with a top52and annular side wall54extending down from the top52. The closure30has a plug seal56and outer tamper evident band58connected to flange59above external threads60. The plug seal56engages a surface39when in a closed position, wherein the surface39is 20 degrees from vertical and is adjacent the upper flange34of the fitment20. The closure30will encompass the spout42and be threaded onto the fitment20to engage the seal56against the surface39and sealing bead29against flange59. Further, tamper evident band58of the closure30has radial outwardly facing latches62extending from the band58, with the latches62engaging the radial inwardly facing projections46on the fitment20. Frangible leaders64connect the band58to the side wall54and plug seal56. The tamper evident band58will be initially locked into place when the closure30is first threaded onto the fitment20. Removal, by unthreading, of the closure30will fracture the leaders64disconnecting the tamper evident band58thereby forming or functioning as the safety feature for the fitment closure10.

In operation the closure30is threaded onto the fitment20through the engagement of the threads38and60(until the latches62are in locking engagement with the projection46for the initial installation). With the plug seal56in sealing engagement with the surface39the fitment closure10is sealed, with the bead29and flange59forming a secondary seal. In removing the closure30from the fitment20the user simply unthreads the closure30. This instruction (i.e. direction of rotation for on and off) can be molded onto the top52of the closure30.

The above described embodiment is intended to be merely illustrative of the present invention and not restrictive thereof. The scope of the present invention is intended to be defined by the appended claims and equivalents thereof.