US2134321A

US2134321A - Receptacle

Info

Publication number: US2134321A
Application number: US117719A
Authority: US
Inventors: Walter E Amberg
Original assignee: UNIVERSAL PAPER PRODUCTS COMPA
Current assignee: UNIVERSAL PAPER PRODUCTS Co; UNIVERSAL PAPER PRODUCTS COMPA
Priority date: 1936-12-28
Filing date: 1936-12-28
Publication date: 1938-10-25
Anticipated expiration: 1955-10-25

Description

Oct. 25, 1938. l w. E. MBERG REIGEPTACLE Filed Dec. 28, 1936 5 shees-sheet .z

w. E. AMBER@ I RECEPTACLE Oct. 25, 1938.

Filed 1160.28, 195s 5 sheets-sheet s -Peienied oer. 2s, 193s PATENT OFFICE RECEPTACLE Walter E. Amberg, Chicago, lll., assigner to Universal Paper Products Company, Chicago, lll., a corporation of Illinois Application December es, 193s, serial Ne. 117,719 13 claim. (o1. 229-21) 'Ihis invention relates to receptacles, more particularly paper containers, and has for an object` thereof the provision of an improved type of paper receptacle having a polygonal -at base and a circular open mouth and which may be used in dispensing water, soda and other liquids.

A cup having a at polygonal base and a circular mouth has beendescribed by Elliott, U. S. Patent 1,073,481, granted September 16, 1913.

M Certain modications of the Elliott cup have also been described by other workers in the art, as, for example, by Novick, U. S. Patents 1,910,177 and 1,910,178 granted May 23, 1933, in which the cup has a pull ap either at the base or extending throughout the length of the body portion.-

In malnng such cups or receptacles as heretofore previously proposed, owing to the shape or conguration of the blank, a considerable amount 20 of the paper is wasted.y Such paper is scrapped and forms no part of the finished cup.

It is an important feature of the present in .vention to provide a cup blank and an improved cup formed therefrom which may be made Ifrom a roll of paper, without anysubstantial loss or waste thereof.

In accordance with the practice of the invention a roll of paper, the width of which corresponds to the width of the cup blank, is cut transversely in a manner hereinafter to be described 3 to form a series of blanks without waste.

The improved cup formed from the blanks hereinabove described is distinguished from previously described cups having a fiat polygonal base by the fact that portions of the blank which would ordinarily be wasted are utilized in making the cup and serve to reinforce portions of the l side walls thereof to produce a cup made from a single piece of paper, or other suitable ilexible material, which is relatively more rigid and less o likely to collapse than previously described cups referred to above. 'I'he provision of a cup of this type permits the use of lighter stock and inasr much as there is no waste'a stronger cup is obtained. In other words, although the paper stock may be lighter, the entire stock goes into the cup, none of it being scrapped with theresultA that a stronger, substantially non-collapsible single piece container is produced.

Other objects and features of the invention will 'l become apparent from a reading of the following specifications in the light of the accompanying drawings, in which Figure 1 shows a strip of paper having dotted lines appearing thereon to indicate the manner 55 in which the blanks are cut;

'Figure 2 is a view of a blank for forming a cup having a square base showing a method in which the side walls and boundary lines thereof may be defined; f

Figure 3 is e modmeauon or the blank inus- 5 trated in Figure 2;

Figure iis a top view looking down into a cup formed from a blank of the type illustrated in Figure 3;

Figure 5 is aside elevational view of the cup 10 formed from the blank of Figure 3, and shown in plan view by Figure 4;

Figure 6 is a side elevational view of the cup illustrated in Figure 5 as it appears when the cup of Figure 5 is turned clockwise at an angle 15 of ninety degrees;

Figure v7 illustrates a side elevational view of a modification of the cup shown in Figures 3 to 6, the modified cup having the sides and bottom buiged inwardly;

Figure 8 is a plan view looking down into the cup of Figure 7;

Figure 9is a modiiicationy of the blank illustrated in Figure 3 without the crease or fold lines in the base portions; 25

Figure 10 is a modincation of the blank of Figure 3 showing a different arrangementof fold lines in the base portion; t

Figure 11 illustrates a blank suitable for the production of a cup having a triangular base and 30 a circular top; l

Figure 12 mustrates a bank mutable for the production of a cup having a hexagonal base and a circular mouth.

As iuustrated in Figurei, s emp of paper "1,35

the width of which corresponds to the width of the cup blank to be formed therefrom, is fed from a roll of paper not shown. Any suitable means as, for example, a knife, is arranged in position to cut the free extremity I2of the strip Il. As 40 illustrated, the shape o f the cut is arcuate, the

center of thearc corresponding with the longitudinal'axis of the strip. All o1 the arcs have equal radii with the centers on the same vertical axis outside of the blank formed by any two 45 -twice the height of the blank. and the distance v 24-26 being equal to each of the distances 28--26 and 28-28. Point 28 is the center of the concave arc 22.

The base portion is defined and bounded by chords of an arc 38 which is concentric with the arc I8, that is, has its center at the same point 28, and which, as shown in Figure 2, intersects at points 32 and 34 with the parallel side edges and the concave lower edge of the blank. The portion of the blank available for formation of the base is determined by the radial dotted lines 20-36 and 20-38. The distance between the points of intersection 48 and 42 of these radial lines with the concentric circle 38 when divided into the desired number of chords determines the perimeter of the base. The number of sides to the polygon forming the base may, of course, be varied as, for example, 3, 4, 5, 6, etc., by varying the number of chords between the points 48--42. In Figure 2 there are four chords, 44, 46, 48 and 5I), which when folded in the manner hereinafter described produce a four-sided base. These chords are preferably of equal length, although this is not essential. The

lines

52, 54, 56, 58 and 68 are radial projections from the center 28 of the convex arc I8 through the terminal points of' the

chords

44, 46, 48 and 58.

The portions of the blank enclosed between the points 48, 42, 62 and 64 are base overlap portions and are either cut, creased or folded in such a way that they form a fiat leak-proof base when turned inwardly and adhesively secured. The portions of the blank enclosed by the chords and lines drawn between the

points

32, 36 and 48, and 34, 38 and 42 are side wall overlap portions and serve to strengthen and reinforce the side walls of the cup. Portions of the blank enclosed within lines drawn from

points

32, 48 and 64, and 34, 42 and 62 may either be bottom overlap portions or side wall overlap portions. In the latter case they are severed along the lines 48-64 and 42-62. The entire area enclosed within the chords of the concentric arc 38 and the bottom edge of the blank 22 may be cut along the dotted lines in order to form the overlap portions, or may be creased, that is, folded without cutting, for instance as shown in Figure 3.

It will be observed that the conguration and area of the bottom overlap portions should preferably'be such that these overlap portions do not extend beyond the base. This is governed by the radius of the concentric circle 38, the chords of which form the sides of the base, and also by the number of chords, that is, the number of sides in the polygon forming the base of the receptacle. The radius of the concentric circle 38( in turn is governed in part by the distance between the center 28 of the convex arc I8 and the concave arc 22 along line 2li-26. In Figure 2 this distance 28-26 is approximately equal to the distances 24--26 and 28-28 and the concentric arc, as illustrated, intersects both the parallel side edges I1 and I 9 and the concave lower edge 22 at .the points 32 and 34. y However, if the center 28 were closer to the arc 22 of the blank then the radius' of concentric arc 38 should be smaller. On the other hand if the center 28 were farther away from arc 22 than illustrated in Figure 2 the concentric arc 38 should have a greater radius.

In general, the distance 26-18 should be such' that the base portions defined in p art by

chords

44, 46, 48 and 58 overlapwhen folded toward each other but do not overlap the side walls of the cup. In other words, the distance 26-18 shouldpreferably not exceed the length of chords 44-46, etc. Otherwise, overlapped portions will be formed which, unless folded under, will extend into the side walls of the cup.

'I'he blanks are symmetrical with respect to the longitudinal axis A-A of the strip of paper (Fig. l). That is to say, for every point on the blank to the left of the' axis A-A there is a corresponding point on the portion of the blank lying to the right of the line. Every portion of the blank may be employed in forming the cup and due to the reinforced or strengthened portions of the cup thus produced a lighter stock may, if desired, be employed and a stronger structure will be obtained by reason of having entirely eliminated Waste. It is believed that this is the first paper cup of this type, that is a cup having a flat polygonal base and a circular mouth, to be formed from a continuous strip of paper without waste. In this connection it may be remarked that if desired the sharp tips or points, 32, 34, shown in Figure 2, or in any of the other Figures 4, 9, 10,-11 and i12, may be removed for example by cutting along the dotted lines 66, 68 (Fig. 2) although it will be appreciated that such loss of paper is inconsequential and immaterial. In other words, notwithstanding the removal of these tiny segments it may be appropriately stated that the cup blank is formed substantially without waste of material.

In forming the cup the blank is rolled so that the points 36, 38 (Fig. 2) substantially coincide, forming the mouth of the cup. At the same time, the base portions between the

chords

44, 46, 48

cave arc 22 are folded inwardly, overlapping each other, and adhesively secured together in any suitable manner adapted to produce a flat polygonal base. Side wall flaps 32, 48, 36, and 34, 38, l42, are folded and are adhesively secured to the side walls of the cup in such a manner that the

lines

36, 48 and 38, 42 coincide, one of said flaps being on the inside of the cup and the other on the outside of the cup with the points 32 and 34 terminating substantially at the -base of the cup. The

portions

34, 42, 62 and 32, 48, 64 are preferably folded under and adhesively secured to the base, forming a part thereof. If desired, one or both radial lines 28--36 and 28-38 may terminate at arc I8 at intermediate points nearer the axis B-B. In this case when the cup is formed terminal portions of the arc I8 are overlapped.

In Figure 3, as distinguished from Figure 2, the parallel sides I1', I8' intersect the convex and concave arcs I8 and 22. `The concentric arc 38' intersects the arc 22', rather than the corners of the blank as shown in Figure 2. 'Ihe height of the' blank 24'-26' is greater than the radial distance from the arc 22' to the center of the convex arc I8'. The crease or fold

lines

43, 45, 41, 49, 5I, 53 and 55 are tangents of a circle, not shown, concentric with arc I 8'. Chords 44', 462.48' and 58'A correspond to

chords

44, 46, 48 and 50, respectively, of Figure 2, and are obtained in a similar manner. When the blank of Figure 3 is rolled and folded as described above, the cup presents a and 58 of the concentric circle 38 and the conlines are cut.

may be provided with -an ejector in order to eject the cup after the overlapped portions have been glued. Furthermore, the cup may be mounted over the former in such amanner as toproduce fiat paneled portions in the side walls and symmetrical crease lines such as are shown in Figures 5 and 6. This may be accomplished by using a former with side walls converging from a circular tr toward a polygonal base, generally frusto-conical in shape, but having iiat portions in the side walls arising at an oblique angle from the sides of the polygonal base and terminating near the top of said former. The cup may be shaped by pressing it between two complementary formers.

While a cup with a round or circular mouth is usually preferred for drinking purposes, if desired, by running the fold or

crease lines

52, 54, 56, 58 and 60 (Fig. 2) to the top of the cup a receptacle having a polygonal mouth may be formed. This also may be effected on former.

In Figures 7 and 8, the cup, 'as illustrated, has concave side and base portions, somewhat similar to the leffect obtained in a pinch bottle. This eiect may be obtained by pressing the cup over a former having concave side and base portions. The edges of the base may be in a horizontal plane so that the base extends outwardly from lower portions of the side walls of the cup, as shown by the dotted lines in Figure 8. Alternatively the edges of the .base may be in a vertical plane, forming a continuation of the side walls, and presenting an appearance, when looking down into the cup, similar to that of Figure 8 with the dotted lines omitted. Concaving the sides and bottom serves to increase the rigidity of the cup.

In Figures 3, 9, 10, l1 and 12, the full lines fold up, the dotted lines fold down and the dash Thus, the base or bottom of the cup produced from the blank of Figures 3, 11 and l2 is produced entirely without cutting. 'Ihe tangential base fold lines in Figures 1l and 12 are obtained in the` same manner as those in Figure 3, that is; they are tangents of an arc outside of the blank and concentric with the convex side. 'This method of folding the base portions without cutting isbelieved to be novel in this type of vessel and may be applied generally to blanks having curved upper and lower edges, regardless of whether the side edges are parallel or converging. 'Ihis method of folding may also be applied where the 4base overlap portions are defined by concentric arcs, that is, where the curved sides of the blank have diierent radii but the same center of curvature.

In Figures `9 and 10, portions of the base are cut but without waste. The dotted fold lines in the -base portions of Figure 9 bisect the angles formed by the dash lines (radial lines) and thechords of the concentric arc.

It will be recognized that the cup or container comprehended by this invention may be used for various purposes and that modicatlons in the design and construction of the cup may be made, for instance, other pliable sheet materials, e. g., moisture-proof regenerated, transparent, or

' translucent cellulosic materials, rubberized sheet materials, and the like, may be substituted for paper without departing from the true spirit of the invention as set forth in the appended claims.

Having thus described the invention what I claim as new and desire to secure by Letters Patent of the United States is:

a suitable having a at polygonal base, said blank comprising parallel side edges, an arcuate convex upper edge and an arcuate concavelower edge having the same radius as the upper edge and with the centers of both arcuate edges outside of the blank,

and base fold lines dened by chords of a circle concentric with the convex arcuate upper edge.

3. A blank for forming single piece vessels having a at polygonal base, said blank comprising parallelstraight side edges, an arcuate convex upper edge and 'an arcuate concave lower edge having the same radius of curvature as the upper edge with the centers of the arcuate upper and lower edges on the sanie vertical axis outside of the blank, fold portions adapted to be folded inwardly to form the base and bound in part by chords of a circle concentricI with the convex arcuate upper edge, in part by the concave lower edge and in part by radial lines joining the center of radius of curvature of the convex side with the convex side, said fold portions being of such size that they will overlap when folded inwardly toward the central vertical axis of the cup, Without overlapping the side walls, and. side wall fold portions defined in part by lines joining the center ofthe convex side .with the intersections of the convex side and the parallel side's and in part by the parallel sides.

4. A blank for forming single-piece lvessels having a fiat polygonal base, said blank comprising parallel straight side edges, an arcuatel convex upper edge and an arcuate concave lower edge having the samev radius of curvature as the upper edge with the centers of the arcuate upper and lower edges on the same vertical axis outside of the blank, and side wall fold portions defined in part by the lines joining the center of the convexside' with the intersections of the convex side and the parallel sides and in part' by the parallel sides. A

5. A non-collapsible, leak-proof, single piece open-mouthed receptacle having a ilat polygonal base formed from a blank having straight parallel side edges and curved upper and lower',

edges of equal radii with the centers of said upper and lower edges at different points on the same vertical axis outside of the blank, said blank being wound with the convex upper edge forming the mouth of the receptacle, the side. edges overlapping and running diagonally toward the base of the receptacle, and the base of the receptacle being formed by folding inwardly in the direction of the central vertical axis of the receptacle and adhesively securing together portions of said blank defined in part by the lower concave arc and in partbyA a plurality of chords of an arc concentric with the convex upper edge and close enough to the lower edge to permit the portions between said chords and the lowerdgge t'o be overlapped and form a leak.-4

proof base.

6. A cup as claimed in claim 5 in which the side walls have iiat panel portions.

'7. A cup as claimed in claim 5 in which the side walls and bottom' are concave.

8. A cup as claimed in claim 5` in which the portions forming the base contain crease lines tangential to an arc outside of the blank concentric with the convex side of the blank.

9. A non-collapsible, leak-proof, single piece open-mouthed receptacle having a ilat polygonal base formed from a blank having curved upper and lowerv edges and straight side edges, said blank being wound with the curved upper edge liorming the mouth of the receptacle, the side edges overlapping and adhesively secured together, and the base of the receptacle being formed by folding inwardly portions of said blank' edges, an arcuate convex 'side and an arcuate concave side having the same radius of curvature as the convex sidefand with the centers of both the convex and concave ares on the same central vertical axis outside of the blank, and base fold lines defined by chords of a circle concentric withthe arcuate upper edge.

11. A non-collapsible, single piece, openaia-1,321

mouthed paper receptacle having a polygonal base formed from a blank having straight paral lel side edges and curved upper and lower edges of equal radii, said blank being wound-with the curved upper edge forming the mouth of the receptacle the side edges overlapping and secured together and the base being formed by vfolding inwardly in the direction of the central vertical axis of the receptacle and securing together portlonsof said blank deilned in part by the lower concave arc and in part by a plurality of chords of an arc concentric with the convex upper edge and close enough to the lower edge to permit the portions between said chords and the lower edge to be overlapped.

12. A non-collapsible, mouthed paper cup having a polygonal base and side walls which converge from the mouth toward the base, said cup having concave side wall portions and a concave base adapted to incup, the side edges overlapping and secured to gether and the base formed as a polygon from lower portions of the blank, said cup having concave portions adjacent edges of the polygon at the base.

WALTER L.y AMBERG.

single piece, open-