US2200289A

US2200289A - Container and method of making the same

Info

Publication number: US2200289A
Application number: US229235A
Authority: US
Inventors: Moore George Arlington
Original assignee: HUMOCO CORP
Current assignee: HUMOCO Corp
Priority date: 1937-08-17
Filing date: 1938-09-10
Publication date: 1940-05-14
Anticipated expiration: 1957-05-14

Description

y 1940- G. A. MOORE 2.200.289

CDNTAINER AND METHOD OF MAKING THE SAME Original Filed Aug. 1'7, 1937 ATTORNEY.

UNITED STATES PATENT OFFICE 2,200,289 CONTAINER AND MgTHOD OF MAKING THE George Arlington Moore, Louisville, Ky., assignor to 'Humoco Corporation, Louisville, Ky., a corporation of Delaware Original application August 17, 1937, Serial No Divided and this application September 10,1988, Serial No. 229,235

9 Claims.

This invention relates to containers and more particularly to containers including fibrous materials and methods of making said containers.

This application is a division of my co-pending application Serial No. 159,505, filed August 17, 1937, for Container and method of making the same.

It has. been heretofore proposed to impregnate the surfaces of the materials from which containers are constructed with paraffin or like material to render the same moisture repellent, but in prior containers of this character the paraflln may prevent the provision of dependable adhesively joined seams or joints and moisture is absorbed either from the contents of the container or from the atmosphere outside of the container by the raw edges of the fibrous material and is absorbed or wicked in or out of said material. It has also been proposed to coat the surface of the material with moisture-proof lacquers and the like which may also serve as adhesives, but even this has not obviated the absorption and wicking of moisture through the raw edges of the fibrous component of the container. Moisture is thus carried to or away from the contents of the container, thereby varying the desired percentage of moisture therein.

Accordingly, one of the objects of the present invention is to provide a novel container or package comprising fibrous materials which is so constructed as to be impervious to the entrance or escape of air andmoisture.

Another object of the invention is to provide a novel method of making containers including fibrous materials and having moisture-proof qualities.

Still another object of the invention is to provide a novel method for making containers having heat-sealed seams or joints which may be carried out without defacing the surface of the container by the application of heat.

A further object is to provide a novel method and means for treating the raw edges of fibrous or like materials to render the same moisture repellent.

A still further object is to provide a novel container and method of making the same which may be made and carried out, respectively, with tion of the apparatus .of Fig. 1 on an enlarged scale;

Fig. 3-is a diagrammatic, isometric view, partly in section and with parts broken away, illustrating additional means for carrying out novel steps in the method of the invention; and,

Fig. 4 is an enlarged detail view, partly in sec tion and with parts broken away, showing the end closure seam of a second form of container embodying the present invention.

In the embodiments of the invention illustrated in the drawing, a container suitable for packaging cigarettes is shown, by way of example, but it will be understood that various other embodiments thereof may be provided for packaging tobacco in other forms .and many other varieties of products, particularly those products which are hygroscopic in nature. The form of v container shown is impervious to air and moisture, the same being constituted by a novelly treated, laminated blank Ill comprising a. layer of fibrous material II and a, layer of metallic foil l2 or other non-hygroscopic material, said fibrous and foil layers being preferably secured together throughout their entire areas by means of a suitable adhesive. The foil lamina may constitute either the inner surface of the container, as seen in Fig. 2, or the outer surface thereof, as seen in Fig. 4. Preferably, the marginal portion of the inner surface of blank Ill adjacent at least three edges thereof is coated with a thin dry film of thermoplastic, moisture-proof lacquer having potential adhesive properties, such as Du Pont Lacquer No. 606 or 543, for example, said lacquer serving to seal the seams or joints of the container, as will hereinafter appear. If desired, the entire inner and outer surfaces of the container, or either of said surfaces, may be coated with said lacquer to improve the moisture-proof qualities of the container. A coating of high gloss lacquer capable of taking printing ink or .overcast may be provided on the outer surface of the container in lieu of said thermoplastic lacquer, if desired, to improve the appearance thereof, and any suitable designs or advertising matter may be printed thereon.

In order to prevent the absorption and consequent wicking of moisture intoand out of the container through the fibrous lamma ll via the raw edges thereof, which cannot be satisfactorily coated with lacquer, blank II] from which the container is made has all of its edges impregnated with parafiin or similar moisture-repellent materials, as shown at l4, M, in the embodiment of Fig. 2, and at I5, IS in the embodiment of Fig. 4. Two opposed ends of the blank are overlapped and heat-sealed to provide a longitudinal seam I6 and thus form a tubular body, the engaging surfaces of said overlapping ends being substantially welded together at I! (Fig. 2) by the thermoplastic lacquer coating referred to above. When the tubular body has been thus formed, the open ends thereof are preferably closed and sealed by pressing opposed halves of the inner surface of the marginal'portions of said body into engagement and heat-sealing said surfaces together, as at l8 (Fig. 4), by the application of heat and pressure, the thermoplastic lacquer coating on the inner surface of the blank serving as a binding or sealing medium. Tab l9 formed in this manner at each end of the container may be folded down against the body portion of the latter in any desired manner.

A novel method is provided whereby the edges of blank I!) may be wax-impregnated and the above-described container formed rapidly and at low cost. In practicing said method, the fibrous and foil laminations are adhesively secured to each other throughout their areas by a suitable adhesive, an elastic or latex adhesive, and supplied in the form of a long strip 29 on a reel or roll 2| with the desired lacquer coatings and printed matter thereon. The strip of laminated stock passes from said roll over a guide roller 22 and, thence, between a pair of vertically extending pads 23 of felt or other suitable absorbent material, the raw edges of said strip engaging the adjacent faces of said pads. The lower ends of the latter are immersed in a bath 24 of melted paraffin, wax, or similar moisture-repellent substance, in a container 25. In effect,

pads

23, 23 constitute wicks which continuously absorb the melted parafiin 24 and deposit the same on the raw edges of strip 20. The paraifin bath 24 is maintained in a molten or melted state by any suitable means, such as an electrical heater 26 of any suitable construction. Strip 20 is moved longitudinally between

pads

23, 23 either continuously or intermittently, by a pair of drive or

feed rollers

21 and 28 which are rotated in'opposite directions by suitable power means (not shown) and are frictionally engaged by said strip in the manner clearly shown in Fig. 3. Suitable braking or retarding means may be provided for yieldingly resisting rotation of reel 2| in order that strip 20 may be maintained taut between

rollers

22 and 21.

After passing over roller 28, some slack is permitted-in strip 29 to provide a slack loop, and the strip is then led over a drive or measuring roller 29, the periphery of which is preferably twice as long as each of the blanks l0 and has diametrically disposed pairs of pins or lugs 30 and 3| projecting radially therefrom at the edges thereof. Lugs 30, 3! engage openings or holes 32 rovided in strip 26 adjacent the edges thereof at intervals equal to the desired length of blank l9.

Roller 29 thus constitutes a positive driving means whereby any slippage of strip 26 on

friction rollers

21 and 28 is compensated for and the strip delivered to a suitable cutting means, to be next described, so as to be severed along predetermined lines extending laterally of said strip. Any desired printing matter, such as designs or advertising matter, may accordingly be impressed on strip 29 with perfect assurance that, when the strip is cut into blanks, each of the latter will be of the proper length and contain the desired printed matter properly positioned thereon.

Strip 20 is next cut into blanks of suitable lengths and one or both of the severed edges of each blank is impregnated with paraflin in a novel manner either simultaneously with the cutting operation or during the subsequent steps in making the container, as will hereinafter appear. Preferably, as strip 2|] leaves roller 29, it passes downwardly through a pair of guide members 33 and 34, the former of which is provided with a hard metal insert 35. The other guide member, in the form shown, constitutes one wall of a container 36, in which a quantity of paraffin 31 is maintained in a melted or liquid state by an electric heating element 38. Extending into container 36 in contact with the melted paraflin and projecting through a slot in the bottom of said container is a pad 39 of felt or other suitable absorbent material, the length of said pad being equal to or greater than the width of strip 29. The lower somewhat enlarged surface of pad 39 is slidably engaged by the upper surface of a reciprocating knife 40, the cutting edge of which cooperates with plate 35 to cut strip 20 into blanks IU of the proper length. a

Knife 40 may be reciprocated in synchronism with the rotation of measuring roller 29 by some suitable power means (not shown), the stroke of said knife preferably being such that the cutting edge thereof will be withdrawn from strip 20 to a line between the corners or edges of the lower surface of pad 39. Thus, during the movement of the knife from right to left, as viewed in the drawing, a small amount of liquid paraifin flows to the lower surface of the cutting edge of the knife. and a quantity is also deposited on the upper surface of said cutting edge from pad 39. As knife 40 continues its movement in the direction of the arrow and cuts strip 26, the small quantities of liquid paraflin on opposite sides of the cutting edge are deposited on the severed edges of said strip and absorbed thereby to provide the impregnated edges l4, l4 (Fig. 2).

It will be seen that the adjacent edges of successive blanks are simultaneously impregnated by parafiin carried on knife 40. After each cutting operation, said knife is returned to the i1- lustrated position to pick up additional paraflin from pad 39.

After each blank I6 is severed from strip 20, it is folded or wrapped around a rigid form or mandrel fll (Fig. 1) with the wax impregnated ends It, It overlapping, as best seen in Fig. 2. The overlapped portions of blank III are then sealed together by the applicationof heat and pressure which activates the dry lacquer film previously applied to the blank and presses the same into the interstices of the material, thereby substantially welding the engaging surfaces together at H to form an impervious longitudinal seam l6. It will be seen that the edge l4 within the container will not absorb moisture from the contents of the latter and that the edge l4, whichis exterior of the container, will not absorb moisture from the atmosphere. Since the surface of the fibrous component I I is coated with a moisture-proof lacquer and foil layer I2 is inherently non-hygroscopic, the walls of the container will not be affected in any way by moisture and the moisture content of the product or substance within the container will be maintained substantially constant for an indefinite period of time irrespective of climatic conditions, such as pressure, temperature and humidity.v

The heat sealing of seam I6 is accomplished in a novel manner whereby the heat is prevented from marring the glossy lacquer finisher the printed matter on the outer surface of the container, and whereby raw edge I4 may be impregnated or further impregnated with parafiin wax. In the illustrated embodiment, heat and pressure are applied by a sealing iron 42 to the overlapping portions of blank I through a sheet 43 of waxed paper. Sheet 43 is preferably supplied on a r011 44, is led beneath two

spaced guide rollers

45 and 46, and onto a take-up and drive roller 41 (Fig. 1). Strip 43 is moved intermittently, by some suitable means (not shown), through distances equal to the width of the face of sealing iron 42. When waxed sheet 43 is heated and pressure is exerted thereon by iron 42, it will be seen that the wax on said sheet will be melted and squeezed from between the sheet and'the lacquer coated marginal portion of the blank which is contacted by said sheet. A small quantity of wax is thus caused to flow to the raw edge l4 and is absorbed thereby. This latter method of impregnating edge l4 may either, be employed alone or supplementary to the method above described for impregnating said edge. Any defacing or marring of the outer surface of the container by iron 42 is also obviated. The sealing iron may be heated to the proper degree by any suitable means, such as an electric heating element 48, the heat of said iron being effective to activate the lacquer film I1 between the overlapping ends of blank Ill. The activated lacquer is pressed into the interstices of the engaging surfaces by the pressure of iron 42 and substantially welds said surfaces together.

After the formation of seam I6, the resulting tubular body is axially or longitudinally advanced on mandrel 4| until a suflicient marginal portion thereof extends beyond the end of the mandrel to permit the necessary folding thereof to form

end walls

49, 49 andthe clqsureseam l8, IS. The latter is preferably sealed by the application of heat and pressure, which are supplied by

heated pressuremembers

50, 50 that convergeand engage opposite sides of tab l9, as best seen in Fig. 4. The heat and pressure thus applied are effective to activate the lacquer film on the engaging surfaces and substantially weld the same together. After one end of the body is thus closed, the same is then removed from mandrel or form 4|, filled with the desired contents, and the other end is sealed in a like manner. l9 at each end of the container may be folded down against end walls 49 to provide a package having a neat and pleasing appearance.

There is thus provided a novel hermetically sealed container comprising fibrous materials and a method for making the same, said container beingso constructed that moisturewill not be absorbed from the contents of the container orfrom the atmosphere surrounding the container by the fibrous component of the material from Tabs which the container is made. A novel method is also provided for impregnating the raw edge of a blank of fibrous material, said'method being adapted to be carried out with facility and at a rapid rate at low cost. Additionally, a method for making containers which includes a novel step whereby any defacing or marring of the outer printed surface of the container by the heated irons employed in making heat-sealed seams or joints is obviated.

Although only a limited number of embodiments of the invention have been illustrated and described, it is to be expressly understood that the same is not limited thereto but that various changes may be made therein, particularly in the design and arrangement of parts and the size and shape of the container illustrated and in the materials specified without departing from the spirit and scope of the invention, as will now be understood by those skilled in the art. For a definition of the limits of the invention, reference is had primarily to the appended claims.

What is claimed is:

1. In the container making art, the method which includes impregnating the raw edges 01' a strip comprising fibrous material with a moisturerepellent substance, simultaneously cutting blanks of predetermined length from said strip and impregnating the severed edges with a moisture-repellent substance, and adhesively joining the ends of said blanks to form container bodies.

2. In the container making art, the method which includes impregnating the raw edges of the fibrous component of a strip of material with a moisture-proofing substance, simultaneously cutting a' blank of predetermined length from said strip and impregnating an end thereof with a moisture-proofing substance, and adhesively joining said end to the opposite end of said blank to form a tubular container body.

3. In the container making art, the method which includes impregnating the raw edges of the fibrous component of a strip of material with a moisture-proofing substance, simultaneously cutting a blank of predetermined length from said strip and impregnating an end thereof with a moisture-proofing substance, adhesively joining said end to the opposite end of said blank to form a tubular container body, and forming end closure seams on said body by adhesively joining opposed halves of the inner surfaces of marginal portions at the ends of said body.

4. In the container making art, the method which comprises imparting relative movement to an elongated strip of foldable material having a paper component and absorbent means impregnated with a moisture-repellent substance in liquid form with the edges of said strip in contact with said absorbent means to thereby impregnate the raw edges of said paper component with said substance, and simultaneously cutting a blank 'of predetermined length from said strip and impregnating an edge of said paper component thereof at the line of severance with a moisture-repellent substance carried by the cutting tool.

5. In the container making art, the method which includes applying a thin dry coating of moisture-proof lacquer to the surface of a blank comprising fibrous material, folding said blank into tubular body form with two opposed ends thereof overlapping, and applying heat and pres- 6. In the container making art. the method which includes applying liquefied wax to the raw edges of a strip comprising fibrous material, cutting a blank of predetermined length from said strip and simultaneously impregnating one of the severed edges thereof with a moisture-repellent substance, folding said blank into tubular body form with the marginal portions at the ends thereof overlapping, and applying heat and pressure to said overlapping portions through a sheet of waxed material whereby the exposed raw end of said blank is impregnated with wax.

'7. In the container making art, the method which includes applying a moisture-repellent substance to the raw edges of tl'ie sides of a blank comprising fibrous materialflfolding said blank into tubular body form with the ends thereof overlapping, and applying heat and pressure to said overlapping ends through a sheet of waxed material for simultaneously activating an ad- 20 hesive between the engaging surfaces of said overlapping ends and impregnating a raw edge of said blank with wax from said sheet of waxed material.

8. In the container making art, the method which includes applying liquified wax to the cutting edge of a cutting tool, and simultaneously cutting material having a paper component with said tool and depositing said wax on a raw edge of said paper component at the line of severance.

9. In the container making art, the method which includes impregnating the raw edges of a strip comprising a paper component with paraffin, simultaneously cutting blanks of predetermined length from said strip with a reciprocating cutting tool and impregnating the paper component of the severed edges with paraffin, and adhesively joining the ends of said blanks to form container bodies.

GEORGE ARLINGTON MOORE.