|Publication number||US3809276 A|
|Publication date||May 7, 1974|
|Filing date||Sep 27, 1972|
|Priority date||Sep 27, 1972|
|Publication number||US 3809276 A, US 3809276A, US-A-3809276, US3809276 A, US3809276A|
|Original Assignee||Eyelet Specialty Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (8), Referenced by (40), Classifications (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
United States Patent 11591 Landen 5] May 7, 1974 [5 PLASTIC BOTTLE AND CAP 754,977 3/1904 Dopheide i. 215/47 CONSTRUCTION FOREIGN. PATENTS OR APPLICATIONS  Inventor: William James Landen, Cheshire, 434,518 9/1911 France 215/44 Conn.
Primary Examiner-Herbert F. Ross 7 E l S It C 1 3] Asslgnee 7 S g gf g s mpany targgjtyge Agent, or FirmSandoe, Hopgood and  Filed: Sept. 27, 1972 21 Appl. No.2 292,650 [571 ABSTRACT I The invention contemplates a bottle and closure-cap F construction wherein locking formations hold the 2? 5" g i gfi parts to secure a liquid-seal closure of the bottle. The d 44 52 47 nature of the liquid-seal engagement is one of circular 1 1e 0 earc 6 C 1 line contact, involving a cylinder within a conical concavity, specifically between a relatively thin-walled outwardly flaring upper end of the bottle opening and  kefeliences cued the lower limit of a cylindrical seal projection on the UNITED STATES PATENTS closure wall of the cap. An axially compliant generally 3,435,975 4/1969 Weigand 215/44 radially extending annular portion connects the lower 3.4054832 l0/l968 Lu e c et l- /4 end of the flared neck part to the rest of the neck and 35921349 7/1971 v 215/41 is axially stressed to resiliently load the seal engage- 3,669,295 6/1972 Horvath 2] 5/44 ment 1 3.613928 10/1971 Landen 215 44 3.667.636 6/1972 Landen..; 215/44 8 Claims, 3 Drawing Figures 22 1 L Z4 l 1 i X1 1 ail PLASTIC BOTTLE AND CAP CONSTRUCTION The invention relates to a plastic bottle construction and closure cap and is particularly applicable to such bottles produced by extrusion blow-molding.
It is an object of the invention to provide an improved construction of the character indicated.
Another object is to provide superior seal capabilities in a construction of the character indicated.
A further object is to provide axially compliant features in the neck of a bottle, of the character indicated, whereby compliant deformation in the neck, in the course of setting and locking the cap, is utilized to generate reactive forces for resiliently loading, and thus enhancing, the locked and sealed relationship.
Other objects and various further features of novelty and invention will be pointed out or will occur to those skilled in the art from a reading of the following specification in conjunction with the accompanying drawings. In said drawings, which show, for illustrative purposes only, a preferred embodiment of the invention:
FIG. 1 is a fragmentary exploded view in side elevation, partly broken-away and in longitudinal section, showing cooperating bottle and cap parts of the invention;
FIG. 2 is a plan view of the neck end of the bottle part of FIG. 1; and
FIG. 3 is a diagrammatic presentation of locking parts of the bottleneck, shown in flattened development, and centered on the central line of the aspect 3-3 in FIG. 2. v The invention is shown in application to a plasticbottle having a body 11 and upwardly directed a neck 12, providing discharge access to bottle contents, and to be selectively closed and sealed by a cap 13. The neck 12 comprises a lower cylindrical portion 14 having locking formations engageable with coacting formations in the bore 15 of the outer wall 16 of cap 13.
nected to the relatively rigid outer cap body 16 by an integral axially compliant annular portion 21, shown downwardly dished, at the angle B As shown, the locking formations 22-23-24 22'-23-24') on neck portion 14 are of the bayonet variety, at equal angular spacings, and they co-act with suitable locking lugs 25 at similar spacings in the cap bore 15.
In accordance with the invention an axially compliant, generally radial annular portion26- integrally connects the neck portions14-17, and the lower limit (or sealed line) 18 of. the maximum-diameter extent of projection 19 is so positioned with respect to the axial relation of parts in locked condition that said generally radially extending annular portions 21-26 are oppositely axially stressed when in locked condition. Thus, an upwardly dished orientation B characterized the unstressed condition of annular portion 26. Also, a short cylindrical lip extension 27 terminates the flared seal portion 17, to protect the neck mouth and to provide hoop retention of the outer limit of flare 17; the outer diameter D, of the flared portion 17 and also of lip 27) is at least no greater than substantially the diameter of ceeding neck-wall thickness; and when the cylindrical lower portion is also thin-walled, as shown, the locking formations 22-23-24 extend close to the radial level of 7 portion 26. Similarly, the closure wall 20 and projection 19 are preferably of the relatively thin-walled nature of the compliant portion 21, and a bottom lip extension 28 is of similar thickness. In order that lip 28 will not interfere with the desired line contact at 18, the lip 28 is inwardly converged at an angle a, materially exceeding the divergent flare angle or; of the seal portion 17. Generally, the angle a; is in the range 15 to 25 degrees, preferably substantially 20, a being at least 5 greater, for example 30 for an angle 1 of 20.
The described bottle construction will be seen as lending itself particularly to extrusion blow-molding of suitable plastic, for example, high-density polyethylene. The relatively uniformly thin neck portions follow smooth contours which are not required to build up to greater thickness at the lip end; End flashing is cut-off and trimmed to leave the short cylindrical lip 27, and the design affords reliable flow of material to the locking formations 22-23-24, etc.
FIGS. 2 and 3 illustrate parting-line considerations in the design of the respective locking formations, the parting line between mold halves being indicated by legend. Each of these formations provides an axialretention surface for one of the cap lugs 25, at 31 for lug 22, at 32 for lug 23, and at 33 for lug 24, all said surfaces being in the same radial plane. The lugs 25 include cam faces 34 to engage and ride up coacting cam surfaces at corresponding ends of all formations 22-2- 3-24, an axial snap to the locked position being achieved over the shoulders 35-36 of formations 22-23 (22-23'), and rotational limiting abutment being provided at stems 37-38 of the four formations 22-24 (22'-24'). All contours of formations 22-23-24 22'-23'24') are precisely formed and are not subject to degradation in the course of mold parting, as will be understood. v
In the process of securing the cap 13 to neck 12, lugs 25 are positioned between formations 22-23-24 (22'23'24'), andcap 13 is twisted clockwise. As earns 34 ride up the surfaces 35-36, cap 13 is drawn downwardly, causing axial stress and deformation of both annular portions 21-26, in opposite directions. The dished shapes are thusconsiderably flattened in the course of such rotation, to a maximum extent just prior to snapping off surfaces 35-36, to home all lugs 25, at the respective surfaces 31-32-33; preferably, a substantial residuum of axially stressed compliant action remains after snapping to such home position, so that the line contact at 17-18 tends to spread slightly to a narrow band of axially and radially stressed liquidsealing engagement, and the seal line is axially and rotationally wiped with attendant seal-cleansive action, in the course of securing the cap. To remove the cap, it must first be pushed axially to the bottle, against further sitffening compliant reaction, before counterclockwise twisting to cause lugs 25 to clear their trapped positions. A
The invention will be seen to have achieved all stated objects with a simple and economic bottle construction which is able to lend axially compliant deformation as a contribution to that provided at 21 for skirt 19. The divergent flare 17' is formed in a single operation, and it is possible to avoid the reaming step, previously necessary in the formation of an accurately flared concavity, for developing a line-contact seal.
While the invention has been described in detail for the preferred form shown, it will be uderstood that modifications may be made without departing from the lar generally radially inwardly projecting portion connecting said cylindrical and conical portions, the radial extent of said annular portion exceeding the thickness of said portions, whereby said annular generally radial portion provides an axially compliant connection of said upper and lower portions;.said closure cap including a relatively rigid outer annular wall having a bore with locking formations engageable with those of said cylindrical locking portion, said cap further having an integral axially yieldable generally radially extending annular closure-wall portion, an integral internal cylindrical seal projection radially inwardly spaced from said bore and extending axially downward for engagement with said conical portion, whereby said closurewall portion provides an axially compliant connection of said rigid annular wall to said internal seal projection; the maximum diameter of said seal projection being greater than the minimum diameter of said inwardly projecting neck portion and at least no greater than the maximum diameter of said upper conical portion, whereby an essentially circular line-contact cir cumferential interference will occur for cap-to-neck assembly; and the lower limit of the cylindrical portion of said cylindrical projection being so positioned with respect to the axial relation of parts in locked condition that both said axially compliant connections are oppositely axially stressed to axially preload said interference when said cap and neck are in locked condition.
2. The combination of claim 1, in which the downwardly projecting end of saidseal projection has a convergent inwardly tapered region adjacent said lower limit, the angle of convergence of said tapered region exceeding the angle of outward flare of said seal portion.
3. The combination of claim 2, in which the angle of outward flare of said seal portion is in the range of 15 to 25. a
4. The combination of claim 2, in which the angle of outward flare of said seal portion is substantially 20. 5. The combination of claim 1, which the upper end of said neck integrally includes a short cylindrical portion.
6. The combination of claim 1, in which said interengageable locking means is of the bayonet variety.
7. The combination of claim 1, in which said annular radially extending portion of said-neck is upwardly dished.
8. The combination of claim 1, in which said annular radially extending portion of said cap is downwardly dished.
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|U.S. Classification||215/332, 215/330, 215/301|
|International Classification||B65D41/04, B65D41/06|