|Publication number||US2669369 A|
|Publication date||Feb 16, 1954|
|Filing date||Nov 2, 1949|
|Priority date||Nov 2, 1949|
|Publication number||US 2669369 A, US 2669369A, US-A-2669369, US2669369 A, US2669369A|
|Inventors||Towns Edward J|
|Original Assignee||Bryant W Griffin|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (14), Referenced by (25), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
E. J. TOWNS Feb. 16, 1954 BOTTLE CAP Filed Nov. 2, 1949 INVENTOR. EDWARD J. TOWNS BY fi /ww Patented Feb. 16, 1954 UNITED STATES PATENT OFFICE BOTTLE CAP Edward J. Towns, White Plains, N. Y., assignor of one-tenth to Bryant W. Griifin, Summit, N. J.
Application November 2, 1949, Serial N 0. 125,070
This invention relates broadly to bottle caps and more particularly to a bottle cap forming a combined stopper and cap type closure for hottles, jars, etc.
Bottle caps of this general type are known in the art and are generally characterized by a number of inherent disadvantages which make them unpopular in use. Among these disadvantages are high initial cost, short life as an effective seal, a difiiculty in application to or removal from a bottle due to characteristics of the material or type of locking means used, and poor design and construction resulting in loss of beverages, foods, or gases due to leakage.
Accordingly, the chief object of the present invention is to obviate the foregoing and other disadvantages characterizing many known structures.
Another important object of the present invention is to provide a bottle cap which may be readily applied to bottles, etc., manually or by conventional capping machinery, readily removed from the bottle manually, and reused indefinitely without permanent distortion of the cap or lessening the effectiveness of its sealing characteristics.
Another important object of the present invention is to provide an improved bottle cap of thermoplastic material having strength, stiffness and friction characteristics which combine to form a self-reinforcing combined cap and plug type bottle closure.
A further important object of the invention is to provide a bottle cap having bead gripping fingers and a seal which, when in sealing position upon the neck of a bottle will act to increase its grip thereupon.
A still further important object of the invention is to provide a bottle cap having a seal and bottle bead engaging fingers which, when in operative position upon a bottle act to increase the sealing effect.
Another object of the invention is to provide an improved bottle cap which may be readily and economically manufactured and of long effective sealing life.
Other objects and advantages of the invention will become apparent during the course of the following description.
In the drawings I have disclosed two embodiments of my invention. In these showings:
Figure l is a perspective View of the bottle cap comprising the present invention n operative position upon a bottle;
igure 2 is a top plan view thereof;
Figure 3 is a central vertical section view thereof;
Figure 4.- is a bottom plan View of the bottle cap;
Figure 5 is a central vertical sectional View of the bottle cap in its unstressed condition when not in operative position upon a bottle; and
Figure is a central vertical sectional View of another form of the invention in operative and locked position upon a bottle.
Referring to the drawings, numeral H1 designates the bottle cap as a whole which is entirely of plastic material and may be molded in a die by compression or injection molding. I have determined that solid ethylene polymer, when molded into the structure to be described, is particularly well adapted for the purpose in that it combines strength and substantial stiffness with resilience, resumes its original shape after temporary distortion, and having a lower coefficient of friction, for example, than rubber, it may readily be snapped on or on a bottle neck. Accordingly, my bottle cap is preferably formed of solid ethylene polymer or other thermoplastic having substantially the same characteristics.
The plastic cap it comprises a thin flat top 12, a depending open-ended sealing tube 14 formed centrally of and integral therewith, and a depending bead-engaging annular .skirt It. The tube i l tapers slightly toward its open end which is beveled as at IE to facilitate its insertion in a bottle, and its circumference adjacent the top [2 is slightly larger than the mouth of the bottle to be capped thereby.
The outer surface of the skirt l6 flares downwardly and outwardly from the top I! while the inner surface conforms to the shape of the neck of the bottle B and its annular bead 20. It is to be noted that the space between the tube I. and the skirt I6 is slightly smaller than the beaded neck of the bottle when the cap is not positioned thereon (Figure 5) so that when the cap is in operative position upon a bottle (Figure 3), the tube It is radially compressed and the skirt flexed radially outwardly as will be more fully described.
The cap II] is retained upon the bottle neck by the inwardly directed annular bead 22 of the skirt it which is permitted to flex sufficiently for removal of the cap by the provision of a plurality of circumferentially spaced slits 23 which thus form the head 22 into a pluralityof substantially stiff but sufiiciently resilient fingers 2A for engagement under the bottle head 20. The bottom surfaces of the fingers M curve inwardly and upwardly as at 25 to assist in centering the cap upon the bottle neck. It is to be noted that the fingers 24 terminate as at 26 at a point below the major diameter of the bottle bead 20 so that removal of the cap requires a slight flexing or distortion of the solid portion of the skirt It.
In order that the removal of the cap l0 may be readily effected, one of the fingers 24 is thickened and extended outwardly so as to form a removal tab 28. As will be apparent, upward pressure of the thumb on the bottom of the tab will displace the cap from the bottle.
In the use of the cap 10 for the rescaling of beverage bottles, etc., the cap is positioned over and on the bottle mouth where it is more or less automatically centered by the upward and inwardly curving bottom surfaces 25 of the resilient fingers 24. Downward pressure upon the cap now causes the beveled end [8 of the sealing tube to enter the mouth of the bottle B which it closely fits. The slight taper of the outer surface of the tube 14 effects a pressure tight seal between the sides adjacent the top !2 and the inner surface of the bottle neck. As the tube I4 is pressed. into sealing engagement with the bottle mouth, the bead 22 on the fingers 24 is snapped over the bead 20 on the bottle neck to retain the cap thereon with a grip well in excess of that which is necessary to withstand the maximum gaseous and/ or liquid pressure which the bottle can stand without shattering.
An important feature of this combined. plug and cap type bottle cap construction resides in its self reinforcing characteristics. When in sealing position upon a bottle the cap is in a stressed condition (Figure 3) as contrasted with its unstressed position as shown in Figure 5. In the sealing position, the bottle neck and bead 20 force the skirt l6 and its gripping fingers 24 radially outward as stated, and about the top of the bottle as a fulcrum tending to urge the tube 14 more tightly against the inner side of the mouth of the bottle. This also forces the outer annular surface of the cap l2 to incline downwardly and radially inward as indicated at X. The tube [4 is further more tightly seated due to its taper so that a leak proof seal for gas or liquid is thus effected.
At the same time, the radial compression of the sides of the tube I4 causes the central portion of the cap l2, indicated at Y, to bow up into a crown which stresses are dissipated throughout the cap and, in turn, tend to force the skirt !6 and its fingers 24 more tightly against the bottle neck. It will be noted that these forces and the sealing action of the tube M are increased by liquid or gaseous pressure acting within the tube 14.
Thus a perfect seal is effected by the tube l4 which is retained in position by the skirt and its fingers 24, the tube and skirt each functioning to assist the function of each other due to the stresses set up by their design. Due to the stifiness of the plastic and its low coefiicient of fric tion with glass, the cap is readily removed by upward pressure of the thumb on the tab 28 whereupon it returns to the unstressed condition shown in Figure 5.
A slightly modified form of the invention is disclosed in Figure 6 wherein the junction of the top l2 and skirt l6 has been beveled as at 30 to facilitate the positioning of a locking ring 32 about the cap. In all other respects, this embodiment is identicalwith the embodiment shown in Figures 15 inclusive which is adapted for the rescaling of bottles, etc., after the original and conventional crown cap has been removed. The cap and locking ring shown in Figure 6 is particularly intended to be used in connection with the original bottling and capping of beverages as it cannot be accidentally displaced in transit although it may also be used subsequent thereto for recapping and locking.
In its use, the locking ring 32 may, manually or by capping machinery, be readily positioned over the cap I due to the beveled surfaces 39 and moved downwardly into firm engagement with the surface of the flared skirt fingers 24. Due to the relatively soft nature of the surface of the solid ethylene polymer of which the cap is made, the ring 32 is self seating therein and will retain its locking position until it is physically forced upwardly.
It is to be noted that the ring 32 does not force the fingers 24 into engagement with the bead 20, but merely locks them in this position. Removal of the ring permits the fingers to flex outwardly when the tab 28 is pushed upwardly to remove the cap.
It will now be appreciated that the present invention provides a highly improved closure for bottles, jars, etc., which may be economically manufactured, is strong and tough yet sufficiently resilient and which combines highly effective sealing and position-retaining structure so as to be self reinforcing while being readily applicable to or removable from bottles.
It is to be understood that the forms of my invention herewith shown and described are to be taken as preferred examples of the same and that various changes in the shape, size and arrangement of parts may be resorted to without departing from the spirit of the invention or the scope of the subjoined claims.
1. A closure of substantially stiff resilient polyethylene for application to bottles having a neck bead comprising a substantially fiat top having a centrally positioned tapered tube depending therefrom for sealing engagement with the inner sides of a bottle mouth, and a flared skirt depending from said top and including a plurality of gripping fingers conforming with and engaging the lower portion of said bead, said fingers being formed by slitting said skirt vertically at spaced points about its circumference to points just below the maximum diameter of the bead whereby the unslit portion of said skirt engages the upper and maximum diameter portions of said bead, the spacing of said tube and skirt being less than the thickness of a bottle neck and bead whereby while positioned on a bottle, said tube and said skirt act thereagainst to increase their sealing and gripping actions respectively.
2. A closure as recited in claim 1 wherein one of the fingers of said skirt extends outwardly to form a removal tab.
EDWARD J. TOWNS.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,237,761 Dwyer Aug. 21, 1917 1,454,510 Heiter May 8, 1923 1,546,159 Wippler July 14, 1925 1,646,765 Ramsey Oct. 25, 1927 1,747,760 Duffey et al Feb. 18, 1930 1,879,640 Spengler Sept. 27, 1932 1,946,981 Lower Feb. 13, 1934 2,010,037 Schulman Aug. 6, 1935 2,325,309 De Swart July 27, 1943 2,416,069 Scott Feb. 18, 1947 2,439,845 De Swart Apr. 20, 1948 2,444,779 Krasberg July 6, 1943 FOREIGN PATENTS Number Country Date 326,808 Great Britain Mar. 19, 1930 49,140 Denmark Aug. 20, 1934
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US1237761 *||Oct 26, 1916||Aug 21, 1917||John T Dwyer||Bottle cap and stopper.|
|US1454510 *||Feb 7, 1920||May 8, 1923||Heiter Henry L||Ornamental bottle top|
|US1546159 *||Sep 20, 1924||Jul 14, 1925||Sr Joseph Wippler||Milk-bottle closure|
|US1646765 *||Sep 18, 1924||Oct 25, 1927||Anchor Cap & Closure Corp||Spring-lock cap|
|US1747760 *||Sep 19, 1927||Feb 18, 1930||Duffy James U||Bottle cap and cork|
|US1879640 *||Feb 26, 1930||Sep 27, 1932||James S Cushman||Bottle cap|
|US1946981 *||Jul 14, 1930||Feb 13, 1934||Sun Rubber Co||Bottle stopper|
|US2010037 *||Sep 15, 1933||Aug 6, 1935||Louis Schulman||Container cap|
|US2325309 *||Dec 4, 1942||Jul 27, 1943||Bland Jamison C||Process of capping bottles|
|US2416069 *||Aug 20, 1943||Feb 18, 1947||Du Pont||Vulcanization of halogenated polymers of ethylene|
|US2439845 *||Oct 12, 1943||Apr 20, 1948||Arthur E Wright||Bottle cap|
|US2444779 *||Apr 6, 1946||Jul 6, 1948||Rudolf Krasberg||Bottle cap|
|DK49140A *||Title not available|
|GB326808A *||Title not available|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2727651 *||Apr 28, 1953||Dec 20, 1955||Mickelson Elmer J||Resilient pipe cap|
|US2740444 *||Oct 19, 1953||Apr 3, 1956||Rogers Plastic Corp||Container|
|US2814404 *||Dec 2, 1953||Nov 26, 1957||Bryant W Griffin||Closure for beaded containers|
|US2814405 *||Dec 31, 1954||Nov 26, 1957||Illinois Tool Works||Closure device|
|US2821319 *||May 16, 1955||Jan 28, 1958||Bladh Walter E||Novelty bottle cap|
|US2885105 *||Aug 30, 1955||May 5, 1959||Grace W R & Co||Preformed shrinkable closures for containers|
|US2886198 *||Mar 14, 1956||May 12, 1959||Herter William Jacques||Bottle stopping device|
|US2932324 *||Jul 6, 1956||Apr 12, 1960||Air Reduction||Valve seal|
|US2942747 *||Nov 22, 1957||Jun 28, 1960||Minnesota Mining & Mfg||Container caps and methods for making them|
|US2950834 *||Oct 28, 1957||Aug 30, 1960||Mazza Ralph O||Pressure retaining stopper|
|US2987206 *||Mar 30, 1959||Jun 6, 1961||Jean Grussen||Plastic cap for containers|
|US3061374 *||Nov 25, 1959||Oct 30, 1962||Sarl Grosfillex Freres||Collapsible seat|
|US3066820 *||Dec 9, 1957||Dec 4, 1962||Faulstich George W||Plastic water bottle cap|
|US3223278 *||Jan 24, 1963||Dec 14, 1965||Continental Can Co||Snap ring closure seal for plastic containers|
|US3770156 *||Nov 26, 1971||Nov 6, 1973||Growth Int Ind Corp||Tamper proof closure|
|US4230229 *||Feb 21, 1979||Oct 28, 1980||Northern Engineering & Plastics Corporation||Snap on bottle cap|
|US4779997 *||Apr 27, 1987||Oct 25, 1988||Baxter Travenol Laboratories, Inc.||Closure for a port and closure assembly|
|US4889256 *||Mar 4, 1986||Dec 26, 1989||Baxter International Inc.||Port and elastic closure|
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|US7611027 *||Aug 28, 2004||Nov 3, 2009||Sang-Hoon Kim||Bottle cap and a bottle with the same|
|US20050211656 *||Mar 24, 2004||Sep 29, 2005||Frank Muir||Bottle cap with built-in magnification|
|US20070007230 *||Aug 28, 2004||Jan 11, 2007||Sang-Hoon Kim||Bottle cap and a bottle with the same|
|US20080250749 *||Apr 16, 2007||Oct 16, 2008||Weldon Industries, Inc.||Fixative device for decorative finial|
|EP1223112A1 *||Jun 6, 2001||Jul 17, 2002||Dario Baronciani||Tumbler suitable to close a bottle hermetically|
|U.S. Classification||215/305, 215/320|
|International Classification||B65D41/18, B65D41/02|