US2916860A - Carton sealing - Google Patents

Carton sealing Download PDF

Info

Publication number
US2916860A
US2916860A US550551A US55055155A US2916860A US 2916860 A US2916860 A US 2916860A US 550551 A US550551 A US 550551A US 55055155 A US55055155 A US 55055155A US 2916860 A US2916860 A US 2916860A
Authority
US
United States
Prior art keywords
carton
flaps
sealing
contents
inertia
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US550551A
Inventor
Roy S Sanford
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ROY S SANFORD AND CO
Original Assignee
ROY S SANFORD AND CO
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ROY S SANFORD AND CO filed Critical ROY S SANFORD AND CO
Priority to US550551A priority Critical patent/US2916860A/en
Application granted granted Critical
Publication of US2916860A publication Critical patent/US2916860A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B51/00Devices for, or methods of, sealing or securing package folds or closures; Devices for gathering or twisting wrappers, or necks of bags
    • B65B51/10Applying or generating heat or pressure or combinations thereof

Definitions

  • This invention relates broadly to the art of carton sealing and more particularly to a method of sealing the open end of a filled carton of the folding flap variety.
  • An object of the invention is the provision of a novel method for sealing flapped cartons which overcomes the unsatisfactory conditions referred to above.
  • Another object of the invention is the provision of a novel method for applying sealing pressure to adhesive carrying flaps of filled cartons which is effective to provide a uniform hermetic seal with a minimum expenditure of time and effort and without damage to the carton or its contents.
  • a more specific object of the invention is the provision of a novel flap sealing method for cartons which utilizes the inertia of the carton contents to provide an outwardly directed sealing pressure which is effective to force the flaps together into sealing engagement.
  • Still another object'of the invention is the provision of a novel flap sealing method for cartons which depends on the inertia of the carton contents to effect sealing engagement of the adhesive carrying folded flaps and thereafter utilizes the weight of the contents to maintain the flaps in sealing engagement until the adhesive sets.
  • Fig. 1 is a simplified diagrammatic view of a form of apparatus which serves to illustrate the principles of the method of the present invention
  • Fig. 2 is a perspective view of a typical flapped carton to which the method of the present invention is applicable.
  • the method of the present invention is dependent upon the utilization of the inertia of the contents of a carton to provide an internal sealing force to act outwardly against folded, adhesive carrying flaps of the type of carton illustrated in Fig. 2.
  • tests have shown that when the carton is suitably supported with adhesive coated flaps folded in their position of closure and in engagement with a plane surface of a movable impact member, when this member carrying the carton is moved vertically at a suitable veloc- 2,916,860 Patented Dec.
  • the force of inertia of the contents within the suddenly-stopped or decelerated carton is sufiiciently great to impart an internal outwardly acting sealing pressure uniformly against the flaps which effects a close sealing engagement thereof.
  • the carton is supported so that it approaches the point of impact or sudden deceleration in an inverted position with the arrangement being such that precisely at the moment of impact the carton is moving in a true vertical direction downwardly so that the force of inertia of the contents will apply a uniform pressure evenly over the entire internal area of the innermost folded flaps. If found necessary to effect a satisfactory seal, the above operation can of course be repeated.
  • the carton can remain in its inverted position a sulficient time so that the weight of the contents can continue to act on .the flaps to maintain them in sealing engagement until the adhesive sets.
  • FIG. 1 illustrates a rudimentary mechanism which may serve to effect inertia sealing of carton flaps in accordance with the above described principles.
  • a carton 10 illustrated in Fig. 2 is provided with the usual closure flaps comprising two small end flaps 12 and 14 and two elongated side flaps 16 and 18.
  • the carton is filled with its intended contents and thereafter adhesive substance, referred to with more particularity hereinafter, is applied to one or both of those surfaces of the flaps which, when the flaps are in their position of closure, will be engaged by an adjacent flap surface.
  • adhesive could be applied to the inner surface of the end flaps 12 and 14, to the outer surface of a side flap such as flap 16, and to one or both surfaces of the opposite side flap 18.
  • the flaps are then folded in their position of closure with side flaps 16 and 18 innermost, and the end flaps 12 and 14 folded over the outermost side flap;
  • Fig. l which as illustrated may comprise a carton holder 20 having a carton receiving cavity 22 only slightly larger than the carton 10 so that in the subsequent sealing operation the contents of the carton will not bulge the sides of the carton outwardly.
  • the cavity 22 may be closed by a suitable lid 24 having a hinge 26 integral with the top of the holder and the lid may be latched in its closed position in any suitable manner such as by means of the manually operable spring pressed plunger latch 28 illustrated.
  • the lid 24 which may be considered an impact member, is in its closed position it provides a plane surface 30 which bears on the flaps of the carton but with only sufiicient pressure to retain the flaps in their approximate position of closure.
  • the holder 20 is integral with an elongated arm 32 which is pivoted at 34 atop a suitable pedestal 36 fixed to a suitable horizontal surface 38.
  • a lever 40 is fixed to the pivot 34 of the arm 32 and may be equipped with a handle 42 to form a crank by means of which an operator may rotate the arm 32 and holder 20 clockwise about the pivot in the direction of the arrows 42a.
  • the holder 20 may be'supported in a horizontal position of rest on a suitable support 44.
  • an impact anvil 46 supported on a suitable horizontal surface 48 and preferably in a position with respect to the pivot point 34 of the holder 20 that when the holder is rotated to the dotted line position of Fig. 1 into engagement with the anvil the longitudinal axis of the holder 20 is normal to the horizontal plane of the upper surface of the anvil.
  • the flaps of the carton 10 When the flaps of the carton 10 are to be sealed the flaps are coated with a suitable adhesive and the carton is placed in the cavity 22 and the lid 24 is closed and latched. The operator then rotates the holder clockwise by means of the crank to bring the outer surface of the holder lid, with the carton flaps abutting the opposite sides of the lid, against the anvil 46 with sufficient velocity to cause the inertia of the carton contents at the moment of impact to effect sealing pressure on the adhesively coated flaps. Since at the exact moment of impact the holder is traveling in vertical downward direction, the inertia forces of the contents are distributed evenly over the internal surface of the flap or flaps adjacent the contents so that a uniform sealing force is imparted to the sealing surfaces.
  • the carton may be left in this position a sufficient time to allow the weight of the carton con tents to act on the flaps to maintain them in sealing engagement until the adhesive sets. Thereafter the carton may be removed and the process repeated for succeeding cartons.
  • the adhesive used in connection with the above described process may be one of several types such as an adhesive having a high tack and which sets quickly and has the property of flowing, or one having regular heat sealing characteristics which is activated prior to inverting the carton and moving the holder against the anvil.
  • an adhesive having a high tack and which sets quickly and has the property of flowing or one having regular heat sealing characteristics which is activated prior to inverting the carton and moving the holder against the anvil.
  • the flaps at the opposite end of the carton may be sealed in a more conventional manner as by means of a mandrel inserted into the carton with the subsequent application of pressure in order to effect sealing engagement between the fiaps of the carton.
  • the method of sealing filled cartons having fiaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in their position of closure, folding said flaps into their positions of closure, positioning said closed fiaps against a plane surface of a movable impact member to maintain said flaps in closed position, and moving said impact member with the carton against a stationary anvil at a velocity which causes the inertia of the contents of said carton upon the sudden stopping thereof to exert a sealing pressure against the closed flaps of said carton.
  • the method of sealing filled cartons having flaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in this position of closure, folding said flaps into their positions of closure, inverting said carton so that said closed flaps engage a plane surface of a movable impact member to maintain the flaps in closed position, and then moving said impact member with the carton against a stationary anvil at a velocity which causes the inertia of the contents of said carton upon the sudden stopping thereof to exert a sealing pressure against the closed flaps of said carton.
  • the method of sealing filled cartons having flaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in their position of closure, folding said flaps into their position of closure, confining the walls of said carton to prevent their bulging during the sealing process, positioning the plane surface of an impact member over the folded flaps to hold the flaps in closed position, then moving said confined carton and said impact member in unison to engage said member with a stationary anvil at a velocity which causes the inertia of the contents of said carton, upon the sudden stopping thereof, to exert a sealing pressure against the closed flaps of said carton.
  • the method of sealing a filled carton having adhesively coated foldable flaps for closing the open end thereof comprising the steps of folding the flaps in overlapping relationship with the adhesive coating therebetween, inverting the carton to distribute the contents thereof substantially uniformly above the inner surfaces of said folded flaps, accelerating said carton downwardly, and suddenly stopping the downward movement of the carton with the outer surfaces of said fiaps in engagement with a plane surface, the rate of deceleration of the carton due to said stopping being suflicient to cause the contents of the carton to exert an inertia force against the inner surfaces of said flaps sufficient to effect a seal therebetween.
  • the method of sealing a filled carton having adhesively coated flaps for closing the open end thereof comprising the steps of folding the fiaps in overlapping relationship with an adhesive coating therebetween, positioning the folded flaps against the plane surface of a movable impact member with the carton in one position, accelerating the carton and impact member to move the member and carton bodily along a path from said one position to a point of impact with said end of the carton leading and the opposite end of the carton trailing while maintaining said folded flaps against the plane surface of the member, and suddenly decelerating the member at the point of impact at a rate which causes the contents of the carton to exert an inertia force on the closed flap sufficient to effect a seal therebetween.
  • the method of sealing a filled carton having adhesively coated foldable flaps for closing the open end thereof comprising the steps of folding the flaps in overlapping relationship with the adhesive coating therebetween, rapidly accelerating the carton downwardly to move the carton bodily along a path from one position to a point of impact with said end leading, and suddenly stopping the movement of the carton at the point of impact with the outer surfaces of said flaps in engagement with a plane surface, the rate of deceleration of the carton during said stopping being sufficient to cause the contents of the carton to engage the flaps at said end and exert an inertia force against the inner surfaces of said flaps sutficient to effect a seal therebetween.

Description

Dec.15,1959 R. s.- SANFORD' 2,916,860
' CARTON SEALING Filed Dec. 2; 1955 mvmoR Ror 5. 5ANFORD A gqlygsys United States Patent U CARTON SEALING Roy S. Sanford, Woodbury, Conn., assignor to Roy S. Sanford & Company, Oxford, Conn., a partnership Application December 2, 1955, Serial No. 550,551
9 Claims. (Cl. 53-38) This invention relates broadly to the art of carton sealing and more particularly to a method of sealing the open end of a filled carton of the folding flap variety.
In the sealing of filled cartons or other receptacles having adhesive carrying flaps which are mutually overleaved to close the open end of the carton diificulty is encountered in applying extensive sealing pressure to the flaps where the cartons contain such yieldable substances as dried cereal, sugar, flour or the like. Sinceyiel'ding substances of this type cannot satisfactorily oppose external sealing pressure, the flaps have a tendency to be pushed inwardly so that a uniform sealing pressure is not applied thereto, resulting in unsealed gaps or slits in the top of the carton through which the packaged substance may sift to cause insanitary conditions and annoyance to sellers and consumers. The fact that cartons of the above type are generally only partially filled also makes it difficult to obtain a satisfactory seal.
An object of the invention is the provision of a novel method for sealing flapped cartons which overcomes the unsatisfactory conditions referred to above.
Another object of the invention is the provision of a novel method for applying sealing pressure to adhesive carrying flaps of filled cartons which is effective to provide a uniform hermetic seal with a minimum expenditure of time and effort and without damage to the carton or its contents.
A more specific object of the invention is the provision of a novel flap sealing method for cartons which utilizes the inertia of the carton contents to provide an outwardly directed sealing pressure which is effective to force the flaps together into sealing engagement.
Still another object'of the invention is the provision of a novel flap sealing method for cartons which depends on the inertia of the carton contents to effect sealing engagement of the adhesive carrying folded flaps and thereafter utilizes the weight of the contents to maintain the flaps in sealing engagement until the adhesive sets.
Other objects and their attendant advantages will become apparent when the following detailed description is read in conjunction with the accompanying drawings wherein:
Fig. 1 is a simplified diagrammatic view of a form of apparatus which serves to illustrate the principles of the method of the present invention, and
Fig. 2 is a perspective view of a typical flapped carton to which the method of the present invention is applicable.
The method of the present invention is dependent upon the utilization of the inertia of the contents of a carton to provide an internal sealing force to act outwardly against folded, adhesive carrying flaps of the type of carton illustrated in Fig. 2. In order to effectively utilize this inertia, tests have shown that when the carton is suitably supported with adhesive coated flaps folded in their position of closure and in engagement with a plane surface of a movable impact member, when this member carrying the carton is moved vertically at a suitable veloc- 2,916,860 Patented Dec. 15, 1959 ity against an anvil, or is suddenly decelerated, the force of inertia of the contents within the suddenly-stopped or decelerated carton is sufiiciently great to impart an internal outwardly acting sealing pressure uniformly against the flaps which effects a close sealing engagement thereof. Preferably, the carton is supported so that it approaches the point of impact or sudden deceleration in an inverted position with the arrangement being such that precisely at the moment of impact the carton is moving in a true vertical direction downwardly so that the force of inertia of the contents will apply a uniform pressure evenly over the entire internal area of the innermost folded flaps. If found necessary to effect a satisfactory seal, the above operation can of course be repeated. After the impact, the carton can remain in its inverted position a sulficient time so that the weight of the contents can continue to act on .the flaps to maintain them in sealing engagement until the adhesive sets.
Fig. 1 illustrates a rudimentary mechanism which may serve to effect inertia sealing of carton flaps in accordance with the above described principles. A carton 10 illustrated in Fig. 2 is provided with the usual closure flaps comprising two small end flaps 12 and 14 and two elongated side flaps 16 and 18. The carton is filled with its intended contents and thereafter adhesive substance, referred to with more particularity hereinafter, is applied to one or both of those surfaces of the flaps which, when the flaps are in their position of closure, will be engaged by an adjacent flap surface. For example, adhesive could be applied to the inner surface of the end flaps 12 and 14, to the outer surface of a side flap such as flap 16, and to one or both surfaces of the opposite side flap 18. The flaps are then folded in their position of closure with side flaps 16 and 18 innermost, and the end flaps 12 and 14 folded over the outermost side flap;
The carton 'may then be placed in themechanism of Fig. l which as illustrated may comprise a carton holder 20 having a carton receiving cavity 22 only slightly larger than the carton 10 so that in the subsequent sealing operation the contents of the carton will not bulge the sides of the carton outwardly. The cavity 22 may be closed by a suitable lid 24 having a hinge 26 integral with the top of the holder and the lid may be latched in its closed position in any suitable manner such as by means of the manually operable spring pressed plunger latch 28 illustrated. When the lid 24, which may be considered an impact member, is in its closed position it provides a plane surface 30 which bears on the flaps of the carton but with only sufiicient pressure to retain the flaps in their approximate position of closure.
The holder 20 is integral with an elongated arm 32 which is pivoted at 34 atop a suitable pedestal 36 fixed to a suitable horizontal surface 38. A lever 40 is fixed to the pivot 34 of the arm 32 and may be equipped with a handle 42 to form a crank by means of which an operator may rotate the arm 32 and holder 20 clockwise about the pivot in the direction of the arrows 42a.
In the initial position of the mechanism shown in full lines in Fig. 1 the holder 20 may be'supported in a horizontal position of rest on a suitable support 44. On the opposite side of the pedestal 36 is an impact anvil 46 supported on a suitable horizontal surface 48 and preferably in a position with respect to the pivot point 34 of the holder 20 that when the holder is rotated to the dotted line position of Fig. 1 into engagement with the anvil the longitudinal axis of the holder 20 is normal to the horizontal plane of the upper surface of the anvil.
When the flaps of the carton 10 are to be sealed the flaps are coated with a suitable adhesive and the carton is placed in the cavity 22 and the lid 24 is closed and latched. The operator then rotates the holder clockwise by means of the crank to bring the outer surface of the holder lid, with the carton flaps abutting the opposite sides of the lid, against the anvil 46 with sufficient velocity to cause the inertia of the carton contents at the moment of impact to effect sealing pressure on the adhesively coated flaps. Since at the exact moment of impact the holder is traveling in vertical downward direction, the inertia forces of the contents are distributed evenly over the internal surface of the flap or flaps adjacent the contents so that a uniform sealing force is imparted to the sealing surfaces.
After the initial impact with the carton now inverted as shown in Fig. 1, the carton may be left in this position a sufficient time to allow the weight of the carton con tents to act on the flaps to maintain them in sealing engagement until the adhesive sets. Thereafter the carton may be removed and the process repeated for succeeding cartons.
With regard to the adhesive used in connection with the above described process it may be one of several types such as an adhesive having a high tack and which sets quickly and has the property of flowing, or one having regular heat sealing characteristics which is activated prior to inverting the carton and moving the holder against the anvil. It will be understood, of course, that the flaps at the opposite end of the carton may be sealed in a more conventional manner as by means of a mandrel inserted into the carton with the subsequent application of pressure in order to effect sealing engagement between the fiaps of the carton.
The above described inertia sealing of flapped cartons has been found to be entirely effective even when using such light weight substance as a dried cereal commonly known as puffed rice. It should be understood, of course, that the apparatus described herein is exemplary only and that the method of imparting a sealing force by utilizing the inertia of the package contents is susceptible of being performed in a variety of ways and is not intended to be restricted precisely to the method described herein. For the limits of the invention reference must be made to the appended claims.
What is claimed is:
l. The method of sealing filled cartons having fiaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in their position of closure, folding said flaps into their positions of closure, positioning said closed fiaps against a plane surface of a movable impact member to maintain said flaps in closed position, and moving said impact member with the carton against a stationary anvil at a velocity which causes the inertia of the contents of said carton upon the sudden stopping thereof to exert a sealing pressure against the closed flaps of said carton.
2. The method of sealing filled cartons having flaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in this position of closure, folding said flaps into their positions of closure, inverting said carton so that said closed flaps engage a plane surface of a movable impact member to maintain the flaps in closed position, and then moving said impact member with the carton against a stationary anvil at a velocity which causes the inertia of the contents of said carton upon the sudden stopping thereof to exert a sealing pressure against the closed flaps of said carton.
3. The method of sealing filled cartons having flaps for closing the open end thereof comprising the steps of applying an adhesive substance to the surfaces of the flaps which will be adjacent each other when said flaps are in their position of closure, folding said flaps into their position of closure, confining the walls of said carton to prevent their bulging during the sealing process, positioning the plane surface of an impact member over the folded flaps to hold the flaps in closed position, then moving said confined carton and said impact member in unison to engage said member with a stationary anvil at a velocity which causes the inertia of the contents of said carton, upon the sudden stopping thereof, to exert a sealing pressure against the closed flaps of said carton.
4. The method of claim 3 wherein said carton and said impact member are moved vertically downwardly against said anvil.
5. The method of claim 2 and including the additional step of retaining said carton in its inverted position to allow the weight of the contents of said carton to retain said flaps in sealing engagement until said adhesive has set.
6. The method of sealing a filled carton having adhesively coated foldable flaps for closing the open end thereof, comprising the steps of folding the flaps in overlapping relationship with the adhesive coating therebetween, inverting the carton to distribute the contents thereof substantially uniformly above the inner surfaces of said folded flaps, accelerating said carton downwardly, and suddenly stopping the downward movement of the carton with the outer surfaces of said fiaps in engagement with a plane surface, the rate of deceleration of the carton due to said stopping being suflicient to cause the contents of the carton to exert an inertia force against the inner surfaces of said flaps sufficient to effect a seal therebetween.
7. The method of sealing a filled carton having adhesively coated flaps for closing the open end thereof, comprising the steps of folding the fiaps in overlapping relationship with an adhesive coating therebetween, positioning the folded flaps against the plane surface of a movable impact member with the carton in one position, accelerating the carton and impact member to move the member and carton bodily along a path from said one position to a point of impact with said end of the carton leading and the opposite end of the carton trailing while maintaining said folded flaps against the plane surface of the member, and suddenly decelerating the member at the point of impact at a rate which causes the contents of the carton to exert an inertia force on the closed flap sufficient to effect a seal therebetween.
8. The method of claim 7, wherein said sudden deceleration is effected by engagement of said accelerated impact member with a stationary anvil.
9. The method of sealing a filled carton having adhesively coated foldable flaps for closing the open end thereof, comprising the steps of folding the flaps in overlapping relationship with the adhesive coating therebetween, rapidly accelerating the carton downwardly to move the carton bodily along a path from one position to a point of impact with said end leading, and suddenly stopping the movement of the carton at the point of impact with the outer surfaces of said flaps in engagement with a plane surface, the rate of deceleration of the carton during said stopping being sufficient to cause the contents of the carton to engage the flaps at said end and exert an inertia force against the inner surfaces of said flaps sutficient to effect a seal therebetween.
References Cited in the file of this patent UNITED STATES PATENTS 1,779,985 Schroeder Oct. 28, 1930 1,868,686 Belcher July 26, 1932 1,912,696 Ferguson June 6, 1933 2,024,503 Bickford Dec. 17, 1935 2,696,245 Fischer Dec. 7, 1954
US550551A 1955-12-02 1955-12-02 Carton sealing Expired - Lifetime US2916860A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US550551A US2916860A (en) 1955-12-02 1955-12-02 Carton sealing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US550551A US2916860A (en) 1955-12-02 1955-12-02 Carton sealing

Publications (1)

Publication Number Publication Date
US2916860A true US2916860A (en) 1959-12-15

Family

ID=24197649

Family Applications (1)

Application Number Title Priority Date Filing Date
US550551A Expired - Lifetime US2916860A (en) 1955-12-02 1955-12-02 Carton sealing

Country Status (1)

Country Link
US (1) US2916860A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3055571A (en) * 1959-12-14 1962-09-25 Hassler Winfield Scott Pour spout carton
US3163314A (en) * 1962-10-03 1964-12-29 Mauser Alfons Containers and method and apparatus for closing same
US4409774A (en) * 1979-12-19 1983-10-18 Msk Verpackungs-Systeme Gmbh Equipment for covering a stack of goods with a shrink-wrap

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1779985A (en) * 1927-02-19 1930-10-28 Standard Sealing Equipment Cor Carton-sealing apparatus
US1868686A (en) * 1930-05-12 1932-07-26 Bemis Bro Bag Co Method of and apparatus for closing and sealing containers
US1912696A (en) * 1930-03-28 1933-06-06 Jl Ferguson Co Package turning device
US2024503A (en) * 1933-11-13 1935-12-17 Percy D Bickford Carton filling machine
US2696245A (en) * 1950-12-23 1954-12-07 Gen Mills Inc Method and apparatus for sealing cartons

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1779985A (en) * 1927-02-19 1930-10-28 Standard Sealing Equipment Cor Carton-sealing apparatus
US1912696A (en) * 1930-03-28 1933-06-06 Jl Ferguson Co Package turning device
US1868686A (en) * 1930-05-12 1932-07-26 Bemis Bro Bag Co Method of and apparatus for closing and sealing containers
US2024503A (en) * 1933-11-13 1935-12-17 Percy D Bickford Carton filling machine
US2696245A (en) * 1950-12-23 1954-12-07 Gen Mills Inc Method and apparatus for sealing cartons

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3055571A (en) * 1959-12-14 1962-09-25 Hassler Winfield Scott Pour spout carton
US3163314A (en) * 1962-10-03 1964-12-29 Mauser Alfons Containers and method and apparatus for closing same
US4409774A (en) * 1979-12-19 1983-10-18 Msk Verpackungs-Systeme Gmbh Equipment for covering a stack of goods with a shrink-wrap

Similar Documents

Publication Publication Date Title
US2341056A (en) Container and method
US4524560A (en) Case top folder and flap supporter
US3921895A (en) Box for containing vials or the like adapted for automatic loading
US2161071A (en) Method of packing frozen food
US3267637A (en) Method of closing, squaring and sealing folding boxes comprising cover flaps
US2402869A (en) Apparatus for packaging
US2114622A (en) Hermetic package sealing
US3783583A (en) Gathering means for clippers
US2832182A (en) Carton closing machine
US2350836A (en) Dispensing apparatus
US2916860A (en) Carton sealing
RU2012148418A (en) CARTON BOX FOR PACKAGING CONTAINERS ARE LIKE PACKAGES FOR BEVERAGES, DEVICE FOR CLOSING PACKAGING AND METHOD OF CLOSING PACKAGING
US3721381A (en) Two part container
US2987858A (en) Method of closing bag tube ends
US4869052A (en) Packaging machine
US3206911A (en) Tape application
US2531743A (en) Method of filling flexible containers with finely divided materials and machine therefor
US3377767A (en) Method of sealing seal end carton
US2860463A (en) Packaging machine
US2538924A (en) Shipping case
US2881573A (en) Bag sealing machine and method
US2074357A (en) Carton and method of manufacturing same
GB1270277A (en) Improvements in container filling apparatus and methods
US3165033A (en) Carton opening device
US2691857A (en) Bag closing mechanism