|Publication number||US3207390 A|
|Publication date||Sep 21, 1965|
|Filing date||Jan 29, 1963|
|Priority date||Jan 30, 1962|
|Publication number||US 3207390 A, US 3207390A, US-A-3207390, US3207390 A, US3207390A|
|Inventors||Walter Short Donald Laurence|
|Original Assignee||Burroughs Wellcome Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (9), Referenced by (5), Classifications (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Sept. 21, 1965 o. L. w. SHORT CONTAINERS 3 Sheets-Sheet 1 Filed Jan. 29, 1963 I nvmvrok Dona \d L W. Shorf Sept. 21, 1965 D. L. w. SHORT CONTAINERS 3 Sheets-Sheet 2 Filed Jan. 29, 1963 /NVEN7'OR Donaki L.W- Show r B) W m maww ATTORNEY Sept. 21, 1965 D. L. w. SHORT 3,207,390
CONTAINERS Filed Jan. 29, 1963 3 Sheets-Sheet 3 WW L M/VENTOR Donald LVW. Sheri BY g am "m mm Y1,
ATTORNEY United States Patent 3,207,390 CONTAINERS Donald Laurence Walter Short, London, England, assignor to Burroughs Wellcome & Co. (U.S.A.), Inc., Tuckahoe, N.Y., a corporation of New York Filed Jan. 29, 1963, Ser. No. 254,627 Claims priority, application Great Britain, Jan, 30, 1962, 3,547/ 62 1 Claim. (Cl. 222-553) This invention relates to containers of the kind formed of two or more parts including a body having an open end or neck and a cap fitting over and rotatable about the open end or neck so that an aperture in the Wall of the cap can be moved into register with an aperture in the Wall of the body to permit removal of contents of the container or out of register with the aperture in the wall of the body to prevent egress of the contents.
With a container of this kind in which the cap is capable of being freely rotated through 360 about the axis of the container, movement of the apertures in the cap and body into or out of register with one another is a matter of chance or trial and error and with containers of small size may be a matter of some difiiculty.
Furthermore in the operation of applying the caps to large numbers of filled containers mechanically it is neces sary that the applied caps shall have a final position relative to the body in which the apertures in the caps and bodies are out of register in order to ensure retention and protection of the contents prior to sale or distribution of the filled containers. Problems arise in this connection due to the difficulty of so orienting the cylindrical bodies and caps before assembly that the apertures will always be out of register after assembly, and inspection and picking out of, and adjusting by hand the parts of containers which are found to be open or partly open is economically prohibitive.
It is the object of the invention to provide an improved form of container of the kind indicated, with which the above described disadvantages are overcome.
The invention consists in a container formed of parts including a body part having a cylindrical end or neck and a cap fitting over and rotatable about said cylindrical end or neck, an aperture in a wall of the end or neck of the body part and an aperture in the wall of the cap part capable of being brought into or out of register with the aperture in the wall of the end or neck of the body part by relative rotation between said two parts, and a projection upon one of said two parts engaged in a slot extending in a general circumferential direction in the other of said two parts and constituting a stop for engagement with the ends of said slot, the location and dimensions of the slot being such as to determine terminal positions of the cap part relative to the body part in one of which the apertures in the two parts are in register and in the other of which both apertures are masked.
In some cases the two apertures are formed respectively, one in the side wall of the cylindrical end or neck of the body part and the other in the skirt portion of the cap part and the projection is formed in the cap part and engages in a generally circumferentially extending slot formed in the body part.
Conveniently the aperture and the circumferentially extending slot in the body part may be formed as a single recess adjacent the free edge of the end or neck of the body part with one edge of the recess open at the free edge of the end or neck.
Alternatively the body part of the container may be wholly or partly closed by a wall at the free end of the cylindrical end or neck and the apertures formed respectively one in the end wall of the cap part and the other in the wall partly or wholly closing the end or neck of the body part and the projection formed on the underside of the end wall of the cap part and the slot for engagement by the projection formed in the wall partly or wholly closing the end or neck of the body part.
The invention is illustrated by way of example in the accompanying drawings in which:
G. 1 is a view in sectional elevation of the body part of one form of the improved container,
FIG. 2 is a view in sectional elevation of the cap part for use with the body part of FIG. 1,
FIG. 3 is a view in plan of FIG. 1,
FIG. 4 is a view in underside plan of FIG. 2,
FIG. 5 is a view in sectional elevation of a part of the body part of the container with the cap part applied thereto, the cap part being shown in one of its terminal positions,
FIG. 6 is a view similar to FIG. 5 in its other terminal position,
FIG. 7 is a sectional view on an enlarged scale showing the manner in which the cap part is retained on the body part,
FIG. 8 is a view in sectional elevation of a modified form of the body part of the improved container,
FIG. 9 is a view in sectional elevation of a cap part for use with the body part of FIG. 8,
FIG. 10 is a view in plan of FIG. 8,
FIG. 11 is a view in plan of FIG. 9,
FIG. 12 is a view in plan showing the cap part of FIG. 9 applied to the body part of FIG. 8, and
FIG. 13 shows diagrammatically a form of apparatus suitable for use in the mechanical execution of the final steps in applying cap parts to body parts of the improved containers.
Referring to FIGS. 1 to 6 the container here shown comprises a hollow body part 1 and a cap part 2. The body part 1 here shown is closed at its lower end and has a circular cylindrical and open upper end or neck 3, the ex terior of which is of slightly tapered form decreasing towards the free end edge 4, an external shoulder 5 being presented at the junction of the parts 1 and 3. The cap part 2 comprises a flat closed end 6 and a skirt 7 of internal tapering form corresponding to that of the exterior of the end or neck 3 of the body part 1 and such that the cap 2 is a free rotatable fit around the end or neck 3 when mounted thereon with the lower edge of the skirt 7 against or close to the shoulder 5 and the closed end 6 of the cap 2 against or close to the free end edge 4 of the end or neck 3.
In the side wall of the end or neck 3 of the body part 1 is formed a cut-out or recess 8 to provide an aperture 9 of predetermined dimensions with one side thereof open at the free end edge 4 of the end or neck 3. The aperture 9 is shown as being of rectangular form but other shapes may be used.
The cut-out or recess 8 is of a shape to provide a circumferential extension 10 at one side of the aperture 9 also open at the free end or edge 4 of the end or neck 3, this extension being of predetermined circumferential length and of an axial dimension less than that of the aperture 9.
On the outer surface of the end or neck 3 of the body part 1 and adjacent to but spaced from the shoulder 5 is formed an outwardly protruding and encircling projection 11 of arcuate section shown on an enlarged scale in FIG. 7.
In the skirt 7 of the cap 2 is formed an aperture 12 of dimensions similar to those of the aperture 9 in the end or neck 3 of the body part and with one of its sides adjacent or close to the closed top 6 of the cap, and on the underside of the closed end 6 of the cap at one side of the aperture 12 and extending radially inwards from the skirt 7 is formed a projection 13 of an axial but with the cap part length not greater than the axial dimension of the extension of the recess 8 in the body part 1.
The lower part of the skirt 7 of the cap 2 is circumferentially recessed on the inner side as shown at 14 to provide a skirt part of reduced thickness extending over approximately one half of the width of the skirt 7 and bounded at its lower edge by an inwardly directed shoulder 16, thereby defining an internal rim 17 at the lower edge of the skirt 7 of an axial width related to that between the external shoulder 5 and the encircling projection 11 on the body part 1.
To assemble the container the cap 2 is applied over the end or neck 3 of the body part 1 with the internal projection 13 of the cap 2 entered in the cut-out or recess 8 of the end or neck 3 and pressure exerted to cause the internal rim 17 on the lower end of the thinner part 15 of the skirt 7 of the cap to snap past the encircling projection 11 on the body part 1 so that the cap 2 becomes locked upon the body part 1.
Thereafter the cap 2 can be rotated on the end or neck 3 in either direction to move the projection 13 in the guide slot formed by the recess 8, in one direction until the projection 13 meets the closed end of the extension 10 of the recess 8 as shown in FIG. 5 in which position the apertures 9 and 12 in the body part 1 and cap part 2 are in register with one another to permit egress of contents of the container, and in the other direction until the projection 13 of the cap meets the edge of the aperture 9 in the end or neck 3 of the body part 1 at the end of the recess 8 remote from the extension 10 as shown in FIG. 6 in which position the apertures 9 and 12 are out of register with one another and both are fully masked so that the container is fully closed.
In FIGS. 8 to 12 there is illustrated an alternative form of the improved container.
In this case the apertures permitting the extraction of contents of the container are in an end wall of the container.
As shown, the end or neck 3 of the body part 1 is provided with an inwardly directed flange 19, and the cut-out or recess 8 is formed in the flange 19 to provide the aperture 9 and the slot extension 10 (FIGS. 8 and 10) of the body part 1, the recess 8 and therefore the aperture 9 and the slot extension 10 being in this case open at the inner periphery of the inwardly-directed flange 19.
The cap 2 is of a generally similar form to that of the previously described embodiment and an aperture 12 is formed in the flat end surface 6 of a size similar to that of the aperture 9 in the flange 19, and in a position spaced radially from the upper edge of the cap by a distance such that by rotation of the cap 2 when mounted on the end or neck 3 the apertures 9 and 12 can be brought into or out of register with one another.
At the underside of the flat end surface 6 of the cap 2 and at a predetermined distance to one side of the aperture 12 in the cap is formed the projection 13 for sliding engagement in the slot extension 10 of the cut-out or recess 8 in the flange 19 on the end or neck 3 of the body part 1.
Mounting and locking of the cap 2 on the end or neck 3 of the body part 1 is effected in a similar manner to that previously described, and it will readily be seen that rotation of the cap 2 relative to the body part 1, in one direction, i.e. counterclockwise in the drawings, until the projection 13 in the cap 2 engages the end of the slot extension 10 in the flange 19 will bring the two apertures 9 and 12 into register with one another as shown in FIG. 11 so that contents of the container can be removed. Rotation of the cap 2 in the reverse direction relative to body part 1 until the projection 13 meets the side of the aperture 9 furthest from the slot extension 10 will result in relative displacement of the two apertures 9 and 12 to positions as shown in FIG. 12 in which the apertures are out of register and both are masked and the container therefore closed against egress of contents.
The construction according to FIGS. 8 to 12 lends itself readily to containers intended to be filled at the end remote from the cap. Such a container may be provided with a plug such as is shown at 20 in FIG. 8 for closing the lower end. The plug may be of the hollow construction shown with thin side walls 21 presenting an outwardly projecting rim 22 adapted to make snap-lock retaining engagement with an internal circumferential projection 23 inside the lower end of the container.
The improved containers may be formed of a variety of materials, such as metal or plastics capable of being fabricated to appropriate small wall thickness and satisfactory containers can be produced by the process of injection moulding utilising polystyrene for the body parts and polythene for the caps, the latter offering elastic characteristics suited to the snap-locking of the caps on the bodies.
Utilising these and other plastic materials, the rim 17 at the lower end of the skirt 7 of the cap 2 may be shaped in cross section as shown in FIG. 7 to present an upward bulge 18 which in the assembled condition exerts elastic upward pressure on the underside of the encircling projection 11 on the body part 1 tending to hold the tapered skirt 7 of the cap 2 down in smooth rotational surface contact with the tapered external surface of the end or neck 3 of the body part 1.
FIG. 13 shows diagrammatically a form of apparatus suitable for locking the caps 2 on the bodies 1 of the containers and delivering the containers in the closed condition that is to say with the apertures 9 and 12 in the non-registering and masked position.
The apparatus comprises a flexible and intermittently driven conveyor band 24 having a surface 25 of rubber and moving over a number of spaced supporting rollers 26 of which two are shown.
Above the conveyor band is mounted a motor 27 e.g. a pneumatically driven motor, embodying a slipping clutch or like device and driving a downwardly-facing hollow chuck 28 lined with a rubber pad 29.
At the underside of the conveyor band 24 between an adjacent pair of the rollers 26 and below the chuck 28 is mounted a platform 30 capable of up and down guided movement under the control of a reciprocating member 31 coupled to the platform 30 by parallel links 32, Whereby a part of the conveyor band 24 between the rollers 26 may be deflected from the normal path upwards towards the chuck 28.
The containers with the caps 2 applied over the ends or necks 3 of the body parts 1 by any convenient known form of feed mechanism are loaded on to the rubbercovered conveyor band 24, 25 and suitably located thereon e.g. by engagement with projections on the rubber surfacing layer 25 and are taken in succession between guide fences 33 to a position beneath the chuck 28 in which they may be located e.g. by means of a movable temporary stop 34.
The timing is such that with a container in position beneath the chuck 28 in rotation under the drive of the driving motor 27 the platform 30 rises to deflect the part of the conveyor band 28 between the pair of rollers 26 upwards so that the upper end of the cap 2 engages the rubber pad 29 in the rotating chuck 28 with pressure. The rubber cover 25 of the conveyor 24 holds the body 1 of the container by friction against rotation and the cap 2 is rotated on the body 1 by frictional engagement with the rubber pad 29 in the rotating chuck 24 and assuming that the stop 13 of the cap 2 is over the cut-out or recess 8, the rim 17 of the cap will be pressed past the projection 11 on the body 1 and the cap rotated on the body until the stop 13 meets the end of the recess 8 remote from the slot extension 10 whereupon the rotation of the cap 2 by the chuck 28 is caused to cease by reaction either by virtue of the slipping clutch or interruption of the pneumatic drive of the motor 27.
2 is locked upon the body 1 and the cap is in the position on the body part 1 in which the holes are out of register and the container therefore fully closed.
If the container is presented 2 in a position in which the stop 13 is not opposite the cutout or recess 8 engagement of the cap with the rubber pad 29 in the rotating chuck rotates the cap with the stop 13 sliding upon the upper edge 4 of the 1 of FIG. 1 or over the surface of the end flange 19 of the container of FIG. 8 until it is capable of moving into the extension slot 10 of the recess 8, so that the cap is permitted to move axially downwards to cause the rim 17 on its lower end to pass the projection 11 to lock the cap on the body. Thereafter the cap is rotated as previously described into the position of non-register of the holes 9 and 12 and total closure of the container.
A container comprising a body portion having an open ended hollow delivery neck, said delivery neck being formed with a generally cylindrical wall carrying to the chuck with the cap a generally cylindrical skirt on said cap having an annular bead formed on its locking relation with the Ill) on said delivery neck on assembly of the said cap onto the said delivery neck, said cap skirt being formed with a cap discharge opening adjacent the end wall of the cap, being adapted to register with said neck discharge opening, said cap having an internal projection depending from the inside of the cap top adapted to extend into said neck discharge open ing and said circumferential extension thereof when the parts are assembled, the inner edge of said circumferential extension, together with the internal projection, serving to limit the rotational movement of the said cap relative to the open end of the delivery neck when the neck discharge opening and the cap discharge opening are in alignment, the spacing cylindrical skirt from the cap fiat end annular rib being at least such that they engage in interlocking relation after the said projection on the cap enters the said neck sembly the cap need only be applied to the delivery neck an external diameter less than the internal diameter of said cap bead, the inner Wall of said cap skirt being provided with a circumferential recess between said end wall and said head spaced from said end wall to provide an elastic zone of relatively small thickness in the said skirt portion.
References Cited by the Examiner RAPHAEL M. LUPO, Primary Examiner. LOUIS J. DEMBO, Examiner.
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|US661911 *||Oct 13, 1900||Nov 13, 1900||William Henry Hall||Tooth-powder box.|
|US751157 *||Jan 19, 1903||Feb 2, 1904||F One||Powder-can|
|US816313 *||Sep 29, 1905||Mar 27, 1906||Scovill Manufacturing Co||Powder-can top.|
|US1765281 *||Mar 14, 1928||Jun 17, 1930||Macdonald Frederick L||Dispensing tube|
|US2183456 *||Apr 28, 1939||Dec 12, 1939||Howard Kelner Henry||Closure cap for paste tubes|
|US2321031 *||Mar 14, 1939||Jun 8, 1943||Lateur Gaston L||Closure cap for collapsible tubes|
|US2765954 *||Mar 22, 1955||Oct 9, 1956||Wohlbier Hans B||Dispenser head and rotatable closure therefor for containers of fluent materials|
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|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3343724 *||Aug 2, 1965||Sep 26, 1967||American Flange & Mfg||Tap for a container including a probe and a valve assembly|
|US4181218 *||Feb 21, 1978||Jan 1, 1980||Johnson & Johnson Baby Products Company||Pre-moist tissue dispensing container|
|US4583667 *||Dec 27, 1983||Apr 22, 1986||Apl Corporation||Partitioning dispensing container|
|US6966468 *||Jun 16, 2003||Nov 22, 2005||Johnson & Johnson (China) Ltd.||Dispenser with adjustable lateral powder flow|
|US20040217138 *||Jun 16, 2003||Nov 4, 2004||Mckay Annalisa||Dispenser with adjustable lateral powder flow|
|International Classification||B65D47/26, B65D47/04|
|Cooperative Classification||B65D47/265, B65D47/263|
|European Classification||B65D47/26D2, B65D47/26D4|