|Publication number||US2232088 A|
|Publication date||Feb 18, 1941|
|Filing date||Jan 18, 1938|
|Priority date||Jan 18, 1938|
|Publication number||US 2232088 A, US 2232088A, US-A-2232088, US2232088 A, US2232088A|
|Inventors||Waters Harry F|
|Original Assignee||Waters Harry F|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (54), Classifications (10)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Feb. 18, 1941.
H. F. WATERS .GNTAINER 2 Sheets-Sheet 1 Filed Jan. 18, 1958 Feb. 18, 1941. H. F. WATERS 2,232,088
CONTAINER Filed Jan. 18, 1938 2 Sheets-Sheet 2 l BY 4ATT NEY.
Patented Feb. 18, 1941 ist ' UNITED STATES PATENT oFFicE Harry F. Waters, New York, N. Y.
,Application January 1s, 193s, serial No. 185,503
` 6` Claims.
l My invention relates to containers and. more particularly, to containers made of paper, cardboard and the like. l i l l It is an object of my invention to provide containers of vthe class described above which may be simply and economicallymanufactured, which shall possess all of the advantages and desirable features of containers heretofore available but which shall not be subject to the disadvantages 10 necessarily inherent in such containers.
A known type of container of the above class comprises a cylindrical body with a separate disclike bottom closure which must be 4inserted and fastened in position. The formation of the cylindrical body and the fitting of the closure thereto is a relatively complicated and expensive procedurewhich must be completed at the point of manufacture. This is particularly truewhen the container is to be made liquid-tight. In the lat ter case, the closure mustibe carefully fitted and interlocked with the body and the interior and/or exterior must then be coated .with suitable ma' terial for rendering the same resistant tothe contents for which it is intended and `to prevent leakage at the point of closure. v
Containers of the known type just discussed must be completed at the point of manufacture and must be shipped to the user in completed form. Such containers are exceedingly bulky and fragile and the shipment and storage thereof are expensive and wasteful matters. In order to reduce the cost of shipment and storage of empty, completed containers, they are frequently made in such shape that they may be nested To this end, the body portions are frequently made in frusto-conical form. The nesting of such containers is an operation whichadds to their cost and, while a considerable reduction in space occupancy is eiected, they are still fragile and must be carefully packed in special cases or sleeves.
Another'known form of container is formed from a circular blank upon dies of appropriate shape. 'Ihe excess stock in the blank is formed into plaits and a lip `must be rolled or otherwise formed along the open end of the container. Such containers `are customarily made from wax impregnated stock and the wax mustbe softened by application of heat during the dieing process. As the formed containers are allowed to cool, the wax hardens` and servesto hold the containers in shape.l Containers of `this Itype are exceedingly wasteful of stock since a relatively large portion of the blank is formed into plaits. These containers are very fragile and must necessarily be delivered to the user in completed form. The
problems of shipping and storage of these containers are substantially the same as discussed in the preceding paragraph.
It is, therefore, a more particular object of my 4invention to provide containers of the class de- 5 lined therein that a self-supporting, hollow contalner of predetermined configuration may be l5 formed therefrom solely by the operation of folding the envelope along the lines defined therein.
It is a. further object of my invention to provide a container suitable for the packaging of liquids, semi-liquids, oils or greases, which may 20 be shipped to the lling point in the form of a fiat envelope having fold lines so defined therein that a self-supporting, hollow container of predetermined conilguration may be formed therefrom solely by the operation of folding the en- 25 velope along the lines dened therein.
Other and further objects of my invention will become appar .-nt from a consideration of the following description taken in connection with the drawings accompanying and forming a part of 30 this specification.
In the drawings,
Fig. 1 is a bottom perspective view of a container constructed according to my invention;
Fig. 2 is a plan view of a completed blank from 35 which the container shown in Fig. 1 may be constructed;
Fig. 3 is a perspective view of a fiau envelope, formed from the blank shown in Fig. 2, illustrating the form in which my improved container may be shipped and stored;
Fig. 4 is a bottom perspective view of my container in a partially erected condition;
Fig. 5 is a somewhat diagrammatic illustration of the positions assumed by various portions of my container when fully erected;
Fig. 6 is a. bottom perspective viewof a modified form of container constructed according to my invention; 50
Fig. l is a plan view of a blank from which the container shown in Fig. 6 may be constructed;
Fig. 8 is a bottom perspective view of another modiiled form of container constructed according to my invention; and 55 Fig. 9 is a plan View of a blank from which the container shown in Fig. 8 may be constructed.
Referring now to the drawings in which similar reference characters indicate similar parts 6 throughout the several views, there is shown in Fig. 2 a blank I0 from which a cylindrical container fulfilling certain of the objects of my invention may be constructed. The blank I is rectangular in shape and its dimensions are chosen for the production of a container of desired size.
The blank I0 is scored or otherwise conditioned for folding along the line II which extends transversely of the blank as seen in Fig. 2 and divides the same into two homologous sections. Score lines I2 are formed adjacent to and preferably parallel to the edges I3. Adhesive material I4 of any suitable type is applied to the blank in the area bounded by the score lines I2 and the edges i3. The blank, as thus far described, may be folded along the line II to bring the edges I5 together. The adhesive bearing margins I2, I3 are brought into `facewise contact and secured together by the adhesive I4 and the seams I6 thus formed may be folded along the score lines I2 and secured in the position shown in Fig. 3 by adhesive.
It will thus be seen that the blank I0, as thus far described, may be formed into a fiat envelope having a seamless bottom, seamed and sealed sides and an open top.
According to my invention, the Ablank Ill is scored, or otherwise conditioned for folding, along lines so laid out that portions of the body of an envelope formed therefrom may be folded in a predetermined manner to form a self-supporting cylindrical container. Preferably, the scoring operations necessary for this result are performed simultaneously with formation of score lines II and I2 and the cutting of the blank, although it is obvious that these operations could be performed separately or that the scoring operations to be described could be performed after the blank I0 has been folded and sealed into the form 45 of a fiat envelope.
According to my invention, the score lines indicated by reference numerals I1 to 2li inclusive are provided in the blank I0 to define a self-supporting bottom formation. The score lines I1, I8 I and I9 define the circular base of the container when set up while therlines 20, 2I, 22 and 23 define ears of excess material which must be folded upon the base, as shown in Fig. l. An important feature of my invention resides in the laying out of score lines I1 to 24 inclusive whereby the area of the material going into the bottom formation is greater than the area of a circle corresponding to the cross section of the cylindrical body of the container. To this end, `the curved lines I'I are 50 developments, in a fiat plane, of the intersection, in space, of the cylindrical container body and another body which may be' a cylinder whose longitudinal axis intersects the longitudinal axis of the container body at right angles or which 65 may preferably be a sphere whose axis coincides with longitudinal axis of the container body. In either event, the lines Il are spaced from the base line I I by a distance greater than the radius of the circular cross section of the container body. 70 The curvature and spacing of the lines II will, therefore, cause the material bounded by these lines to assume a generally arched formation when the container is set up.
The score lines I8 and I9 are preferably laid 75 out as halves of the curved line II and their loaasaoes A cations, relative to the base line I8, are respectively similar to the locations of corresponding parts of the curved lines Il. The lines I8 and I9 will, therefore, cause the material bounded by these lines to assume a generally arched formation in the same manner as the lines I'I. The material bounded by the lines I8 and I9 is, however, formed into ears of excess material, as ,indicated at 25 in Fig. 4. To this end, score lines 22 and 23 are formed as diagonals extending from the intersections of the line I1 with the lines I8 and I9, to the intersections of the line II with the lines I2. The lines 22 and 23 may be straight, as shown, or they may be slightly curved if so desired. Score lines 20 and 2| extend from the intersections of the curved lines I1, I8 and I9 to the base line I I and intersect the base line at a point somewhat within the area bounded by the lines I1. If so desired, additional score lines 26 and 21 may be provided to further weaken the material in this general location. The action of score lines 20, 2I and 26, 21 (if the latter are provided) will be explained hereinafter.
Score lines 24 are formed in the marginal areas I2, I3 of the blank IIJ. These lines preferably have a curvature similar to that of lines I8 and I9 but are laid out in reverse relationship whereby they will coincide with the lines I8 and I9 when the seams I6 are turned over, as shown in Fig. 3.
A preferred manner of manufacture and use of the container disclosed in Figs. 1 to 5 inclusive will now be described.
The blank I0 is cut from suitable stock and is scored, as outlined above. For the packaging of dry materials, an adhesive of any desired type may be applied at I4. For the packaging of liquids or oils, the stock may be coated with a suitable flexible coating material, such as a rubber hydrohalide or a suitably plasticized cellulosic material. If the coating material chosen is thermoplastic, it may be utilized as the adhesive as by providing a sufficient thickness thereof at I4 Otherwise, a suitable oil or liquid-proof adhesive may be placed on the blank within the areas I4.
The blank I0 is then folded along the line II, sealed along the seams I6 by pressure, or heat and pressure when a thermoplastic adhesive I4 is used, and the seams I6 are turned and adhered to the outside of the envelope, as previously described. It is preferred to leave those portions of the seams I6 whichextend below the score lines 22 and 23 unadhered to the body of the container in order to avoid interference with the formation of the ears 25. The container is at this time in the form of a at envelope, as shown in Fig. 3, and is complete insofar as manufacturing operations are concerned.
The nat envelope, shown in Fig. 3, may be packed, shipped and stored with no waste of space and without the necessity of special cartons or careful handling.
When the container is to be put into use, it is set up by hand or by suitable automatic machlnery by folding the envelope along the lines defined therein. No sealing, bottoming or other manufacturing operations are necessary for the conversion of the flat envelope into a self-supporting cylindrical container. To set the container up, it is merely necessary to apply pressure in the vicinity of and in the directions indicated by the arrows A and B in Fig. 3. Pressure at the points indicated by the arrows A will cause the envelope to open along the edges I5 and will cause' the body of the envelope to assume an ovular CII aesaos conformation. Pressureatthe point indicated.4 by the `arrow B will cause-theenvelope .to unfold` aiongythe` creased line and to fold along-,the` lines I'I, 20, 2l, 22` and 23. `Continued 'pressure' at 1 B will cause the material bounded by lines l1 to overcenter with a toggle-like action and assume a curvature reversed from thatof the body. of the container. The material will fall into this reverse curvature with a distinct snap and will thereafter remain` in suchl condition with considerable rigidity..` The material will fold along lines 22 andf23to form theears 25. The container at this stage of the `erection process is shown in Fig. 4.
From an inspection of- Fig. 4, it may'be` observed that ythe material bounded by lines 22,l I8 in theieft hand ear 25 and the material bounded by lines 23, I9 in theright hand earforms a continuationof the cylindrical surface of the container l,bodyf Application of pressure, as in.-
dicated bythe arrowsC in Fig.-4, will cause the ears to bend inwardly along thelines |8 and.|9,
and will force the `material bounded by lines I8, 22.y and |9,l 23 to `assume agcurvaturereversed from thatof the containerbody. `The ears 25 e may thus be bent substantiallyinto the plane of the bottom ofthe container. Duringthe bendf ing ofthe ears 25 `the `reversal vofcurvature will occur,` with a distinct `snap and the ears will be self-sustaining in positionr` adjacent the bottom of the container.` Thematerial bounded by lines 22, 23 will double upon itself along the lines ZllandA 2|. Since this doubling extends through approximately 180, it may be oi' advantage to further `weaken the `materialby the provision of the container along the axis paralleling the base` line f| Theinwardly arched bottom formation caused by the llines `I1 rigldifiesthe container along the axis perpendicular to the base line The two transversely intersecting arch formations -cause the bottom, as a whole, to assume a generally. sphericalconformation. The'lines 20, 2| should, therefore, deiine as nearly aspossible the natural bend` line of this spherical surface. While the lines 28, 2| may be curved, as shown in Fig.' 2, a reasonable approximation of their desired configuration may be made by forming them as straight lines.
The points of intersection of the curved lines I1, I8 and I9 define `feet and, in the particular container thus far described, these `feet will be symmetrically disposed along the circumference of the container bottom. The curved' lines I8 and I9 are so designedv that the ears 25 will be held at right angles to a generatrix of the cylindrical container body and the ears will thus be prevented from extending below the 'feet upon which the container is designed to rest.
InFig. 5, I have shown in diagrammaticform the disposition of various fold lines of my container when completely set up.
It will be obvious that the various score lines may be varied as to position and curvature in order to define fold lines necessary to produce containers whose cross sections are other than circular. Thus, elliptical or ovular containers and containers having unsymmetrically arranged feet may be designed within the scope of my invention, as thus far described.
In Fig. 6, I have shown a container, embodying my invention, the lbody o! whichis frustoconical.4 `Containers of this shape may be set up and nested ,for temporary storage purposes.
A blank, suitable for the formation of the container shown-inFig. 6, is shown in Fig. 7. The outline of the blank IIIJ, as defined by the edges H3 and H5, is designed to form ,a frusta-conical body of any predeterminri dimensions. Curved score lines ||8 and i9 are laid out in accordance with the principles discussed above in connection with Fig. 2 except for variations necessitated by the fact that the body of the container is frusto-conical rather than cylindrical. The score linesvIII, II2, |20, |2I, |22, |23 and |24 are similarly laid out and adhesive is applied to themarginal areasbeyond the score lines I|2.
The blank may 'be folded along the base line and formed into a iiat sealed envelope in the same manner as discussed above in connection with Figs. 2 and 3. In this form, the
containers may be shipped to the point of use.`
The containers may'then be set up exactly as describedabove in connection with Figs. 1, 3, 4 and 5. From an inspection of Fig. 6, it may be seen that a container constructed according to this form of my invention is rigid and self-supporting for the same reasons as pointed out above in connection with Fig. 1.
In Fig. 8, I have shown another form` of con` tainer, embodying the principles of my invention while in Fig. 9, I have shown a blank from which such a container may be formed. The body portion of the container shown in Fig. 8 is rectangular in cross-section and to this end the blank 2ID is provided with score lines 230 and 23| which deiine the angular corners of such a body. Score lines 2|2 define the marginal adhesive bearing areas for the formation of seams discussed above in connection with Fig. 2. In this embodiment of my invention, the bottom formation of the container is'so defined by score lines as to cause the bottom to assume an inwardly arched formation for the purposes already discussed in connection with the modifications above described. Score lines 2|1 are so laid out as to cause the material bounded thereby to assume an arched formation which extends transversely of the face of the container. Lines 2|`| maybe curved. as shown, or may consist of broken straight lines generally following the formation of the curved lines shownin Fig. 9. Score lines 2I8 and 2I9 are laid out according to the principles already above set forth in connection with Fig. 2. In the -present form, -the lines 2I8 and 2| 9- may be straight lines disposed at an angle to the edges 2|3. Score lines 220, 22|,.222, 223 and 224 are similarly laid out.
The particular curvature or angular disposition of the lines 2I1, 2I8 and 2I9 is not critical in this i'ornrofv my invention. A curvature is selected which will produce a satisfactory arching of the bottom without extreme deformation of the piane sides of the container body.
As in the forms previously described, the blank 2I0 is folded along the line 2I| and the marginal edges are sealed in face-wise contact. The envelope thus formed is in condition for shipment and storage. When it is desired to set the container up, the same is folded along score lines according to the principles outlined above. The
material bounded by the lines 2|'I will assume a curvature reversed with respect to the dat faces of the container body and, in assuming such curvature, the material will overcenter and fall into position with a distinct snap. This action will result in rigidifying the container along a line normal to the base line 2H. The material bounded by the lines 2I8 and 2I9 will be formed into ears which will overcenter and snap into Y the position illustrated in Fig. 8. In this respect, tnggtraightscore lines 2I8 and 2I8 serve substantially the same function as the curved lines I 8 and I9 described in connection with Figs. 1 to inclusive. It will be understood that the container body will be folded along the lines 230 and 23| to give the same the desired rectangular cross-section.
While the above detailed description of desirable forms of my invention has been made in order to comply with the statutes, it is obvious that modifications and variations may be resorted to by those skilled in the art. Such description is therefore to be taken in an illustrative rather than in a limiting sense and it is my intention that the scope of my invention shall be limited only by the appended claims.
1. A container in flat form capable of being erected into hollow self-supporting formation, comprising a sheet of material folded upon itself and having the opposite edges of its opposed faces secured together to provide an open mouth, means defining fold lines in said faces upon which said container may be folded to form a hollowl body and a bottom integral therewith, certain of said lines being arched upwardly into the body portion of said container to force said bottom to assume a formation arched along intersecting axes and extending inwardly of said hollow body when the container is erected.
2. As an article of manufacture, a container in fiat form, comprising; a sheet of relatively stiff, resilient material folded upon itself and having the opposite edges of its opposed walls secured together to provide an open mouth; score lines in said walls upon which said walls may be folded to form a container having 'a hollow body, a bottom lying substantially in a plane normal to the axis of said body, and ears extending from said body beyond said bottom; additional score lines in said Walls upon which said ears may be folded substantially into the plane of said bottom, said last named score lines defining the intersection of a generally cylindrical body with the body of said container whereby said ears will be self-sustaining in folded position.
3. As an article ofy manufacture, a container in flat form, comprising; a sheet of relatively stiff, resilient material folded upon itself and having the opposite edges of its opposed walls secured together to provide an open mouth; score lines in said walls upon which said walls may be folded lto form a container having a bottom, a hollow body whose walls rise substantially Vertically from the plane of said bottom, and ears.
extending from said body beyond said bottom; additional score lines in said walls upon which said@ ears may be folded substantially vinto the plane of said bottom, said last named score lines defining the intersection of a generally cylindrical body with the body of said container whereby said ears will be self-sustaining in folded position.
4. As an article of manufacture, a container in fiat form, comprising; a sheet of relatively stiff, resilient material folded upon itself and having the opposite edges of its opposed walls secured together to provide an open mouth; score lines in said walls upon which said walls may be folded to form a container having a bottom, a hollow body whose walls flare upwardly and outwardly from the plane of said bottom, and ears extending from said body beyond said bottom; additional score lines in said walls upon which said ears may be folded substantially into the plane of said bottom, said last named score lines deflning the intersection of a generallyl cylindrical body with the body of said container whereby said ears will be self-sustaining in-folded position,
5. As an article of manufacture, a container in fiat form, comprising; a sheet of relatively stiff, resilient material folded upon itself and having the opposite edges of its opposed walls secured together to provide an 'open mouth; score lines in said walls upon which said walls may be folded to form a container having a hollow body of polygonal cross section. a bottom lying substantially within a plane normal to the walls of said body, and ears extending from said body beyond said bottom; additional score' lines in said Walls upon which said ears may be folded substantially into theplane of said bottom, said last named score lines defining the intersection of a generally cylindrical body with the body of said container whereby said ears will be selfsustaining in folded position.
6. A container in flat form capable of being erected into hollow self-supporting formation comprising a sheet of material folded upon itself along a line extending transversely of the central portion thereof and having the opposite edges of its opposed faces secured together to provide an open mouth, means whereby said container may be folded to form a hollow body and a bottom integral therewith, said means including a series of score lines in said faces, all of said score lines being spaced from said fold line and each said score line being arched away from said fold line.
HARRY F. WATERS.
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|U.S. Classification||383/122, 229/117.1, 229/104, 229/106, 229/4.5|
|International Classification||B65D30/00, B65D3/02, B65D3/00|