US3621628A

US3621628A - Method and apparatus for forming carriers for grouped articles

Info

Publication number: US3621628A
Application number: US22222A
Authority: US
Inventors: Francis A Chidsey Jr
Original assignee: Container Corp
Current assignee: Container Corp; Smurfit Kappa Packaging Corp
Priority date: 1970-03-24
Filing date: 1970-03-24
Publication date: 1971-11-23
Anticipated expiration: 1988-11-23

Abstract

A METHOD AND APPARATUS FOR FORMING A CARRIER FROM WEBS OF RESINOUS MATERIAL. THE RESULTANT CARRIER CONSISTS OF CONJUGATE TUBE-LIKE ELEMENTS PARTICULARLY ADAPTED TO HOLD A GROUP OF CONTAINERS SUCH AS BOTTLES, CANS OR THE LIKE. THE RESINOUS MATERIAL FORMING THE CARRIER IS IN THE FORM OF A PAIR OF WEBS WHICH ARE APPROPRIATELY SLITTED AND SEALED TO FORM THE TUBE-LIKE ELEMENTS WHICH LATER ARE PLACED IN POSITION AROUND A CONTAINER GROUP. THE WEBS ARE PREFERABLY PRE-STRESSED TO MAKE USE OF THE MEMORY CHARACTERISTICS OF THE MATERIAL TO CAUSE THEM TO SNUGLY ENGAGE

THE INDIVIDUAL CONTAINERS AND PROVIDE A CARRIER FOR A GROUP OF SUCH CONTAINERS.

Description

F. A. CHIDSEY. JR 3,621,623 AND APPARATUS FOR FORMING ERS FOR GROUPED ARTICLES 2 Shoots-Shoot l MET CA Nov. 23, I971 Flled March 24 .1970

INVENTOR FRANK A CHIDSEYJR ,wwz

AT TO R NEYS 1971 F. A. CHIDSEY. JR 3,521,623

METHOD AND APPARATUS FOR FORMING CARRIERS FOR GROUPED ARTICLES Filed March 24, 19!0 2 Sheets-Shoat :3

FRANK A. CHIDSEY JR BY WflAw /V ATTORNEYS United States Patent O 3,621,628 METHOD AND APPARATUS FOR FORMING CARRIERS FOR GROUPED ARTICLES Francis A. Chidsey, Jr., Devon, Pa., assignor t Container Corporation of America, Chicago, Ill.

Filed Mar. 24, 1970, Ser. No. 22,222

Int. Cl. B65b 43/00; B32b 31/08, 31/18 US. Cl. 53--29 Claims ABSTRACT OF THE DISCLOSURE fA method and apparatus for forming a carrier from webs of resinous material. The resultant carrier consists of conjugate tube-like elements particularly adapted to hold a group of containers such as bottles, cans or the like. The resinous material forming the carrier is in the form offa pair of webs which are appropriately slitted and sealed to form the tube-like elements which later are placed in position around a container group. The webs are preferably pre-stressed to make use of the memory characteristics of the material to cause them to snugly engage the individual containers and provide a carrier for a group of such containers.

BACKGROUND OF THE INVENTION (1) Field of the invention (2) The prior art In the packaging of beverages, for example, those com monly known as six-packs it has been the practice to form a carrier from a Web of a resinous material having memory characteristics. The web is provided with apertures through which a container extends to be supported. After the apertured Web is placed over the container group, the

resinous material of the web is fitted about the individual containers, so that they are tightly secured by the web.

The following patents are illustrative of the prior art relating to carriers of the general type just discussed and formed in the manner recited. Poupitch2,874,835; Poupitch2,997, 169; Fisher3,044,230; Poupitch-3,086,-

6 51; Whyte--3,232,422; Cunningham-3,268,070; Wandent-3,269,530; and Beart3,307,321.

In the formation of carriers as disclosed in the above patents, a moving web must be punched to provide the container receiving apertures, resulting in an inordinate amount of waste material.

Other forms of carriers made from resinous materials are shown in the following patents: Whiteford-3,224, 576; Stern, et al. 3,250,564; and Wanderer-3,269,530.

Structures of the kind disclosed in the previously mentioned patents require the use of the complicated moulding equipment which cannot function in continuous uninterrupted cycles.

The following patents illustrate carriers formed from a fiat sheet of resinous material having the property of being shrinkable about the containers. These carriers are formed with a minimum amount of loss in scrap material. Bie' seeker et al.-2,994,426; Curry et al.3,186,544; and Wozniak--3,385,626.

ice

SUMMARY OF THE INVENTION A carrier constructed according to the method and apparatus of present invention consist of conjugate tubelike elements having an axial extent which is considerably greater than the thickness of the materials forming the carrier. The tube-like elements are formed from a pair of webs slitted longitudinally in a special manner and adhered together transversely at spaced intervals to provide a plurality of loops, each loop being adapted to hold tightly therein a container of a container group.

THE DRAWINGS FIG. 1 is a plan view of an article carrier for an article group, said carrier being constructed in accordance with the present invention;

FIG. 2 is an isometric view of a group of containers adapted to be supported in the article carrier of FIG. 1;

FIG. 3 is a schematic view showing apparatus for forming the article carrier of FIG. 1;

FIG. 4 is a schematic elevational view showing apparatus for applying the article carrier to a container group;

FIG. 5 is a view taken substantially in the direction of the arrows 5-5 of FIG. 4, showing details of folding a strip formed with the apparatus of FIG. 3 for subsequent application to a container group; I

FIG. 6 is an elevational view taken along the line 66 of FIG. 4 looking in the direction of the arrows; and

FIG. 7 is a plan view looking in the direction of the arrows 77 of FIG. 4 showing apparatus for applying the carrier to a container group.

SPECIFICATION The improved carrier according to the present invention is referred to generally by the reference numeral 10 and includes a group of interconnected loops L adapted to be placed over and around members C of an article group G, each of the articles C of the group G being, for example, containers having chimes CH as a part thereof.

The carrier 10 is formed from a. pair of webs 11 and 12, each being formed of a resinous material having memory characteristics such as polyethylene, polyvinyldene or other resins having similar properties. The webs 11 and 12 are moved in lapping relationship by a pair of

conjugate rollers

15, 15, web 11 being payed from a storage reel 13 and web 12 being payed from a corresponding storage reel 18.

Web 11 supplied "by reel 13 is stretched by pairs conjugately arranged

stretching rollers

14, 14 and 16, 16.

Rollers

16, 16 move the web 11 at the same speed as the

rollers

15, 15,

rollers

14, 14 moving at a speed less than the speed of the

rollers

16, 16 so that the length of the Web between the

rollers

14 and 16 is stretched.

After leaving

rollers

16, 16 web 11 is slit longitudinally thereof by a rotating slitter knife 17, which divides the web 11 into two side by side web elements defined by a longitudinal slit S.

Web 12 is payed from supply reel 18 and is fed between

stretching rollers

19, 19 and 21, 21 in the same fashion as is done with web 11. After being stretched in the manner described the web 12 is slitted by a rotating slitting knife 20 having slitting segments 20A thereon, the slitting segments 20A providing interrupted slits IS in the web 12, slits IS being interrupted by portions of the web 12 where the same is not slitted.

The two webs 11 and 12, which have been treated in the manner aforesaid move between a pair of conjugately arranged

transverse sealing rollers

22, 23 each having a land 24 thereon which places a transverse seal TS connecting the two webs 11 and 12, transverse seal TS being located midway between the uninterrupted portions 25 of the web 12. Sealing rollers are heated in any convenient fashion to seal the thermoplastic film material of webs 11 and 12.

After the two webs 11 and 12 have been treated in the manner aforesaid and moved between

rollers

15, 15 they are stored upon a storage reel SR which can be driven in any convenient fashion.

The two webs 11 and 12, which have been treated in the manner aforesaid, are payed from the storage roller SR and a fold in the web 12 is formed therein by a shoe 28 having sides 29 depending from a longitudinally extending backbone 30. A guide for the two webs 11 and 12, which move over the shoe 28, has sides 31 which are spaced from the sides 29 of the shoe 28, the guide 31 having flared sides 32 which guide the webs in the folding on the backbone 30. The structure described may be supported on a conventional standard 27.

Following the movement of the two webs 11 and 12 over the shoe 28, the elements thereof are separated so as to have configurations as seen in FIG. 1, article carrier 10 including the loops L defined by the lower web 12, which is now separated into discrete portions labeled IS and connected portions 25. The other web 11 is now separated into portions flanking the still connected web portions 12, the longitudinally split portions 11 being conected to the web 12 at the points labeled TS.

Following the separation of the elements described into the configuration seen in FIG. 1, the separation of the loops L is completely achieved by a turret roller 34 turning on a center 35. Turret roller 34 has a plurality of frusto-conical members 36 equally spaced on the periphery thereof and each of the frusto-conical elements 36 has tapering sides 37 which are adapted to engage with the loops L to cause them to adopt generally circular configuration of a dimension greater than the diameter of the containers C at the chimes CH thereon.

As seen further in FIG. 4, container groups G are adapted to move along a conveying reach CR, and the loops L which have been stretched additionally by the tapered surfaces of the frusto-conical members 36 are stripped from the turret wheel 34 by means of a stripper shoe 40 consisting of spaced rails 41 which flank the fr-usto-conical members 36 and engage the web 12 at points of conjugation 25, and web 11 at the outer edge portions thereof, as seen more clearly in FIG. 7. The stripper shoe 40 includes a ramp 42 which flairs from portion 41 thereof and upward toward the turret wheel 34.

It should be noted at this point that the containers C are separated a slight amount so that the loops L can be placed thereon, and that the article 10 is exaggerated as to the thickness of the films 11 and 12 constituting same. The movement of the container groups G along the conveying reach CR causes the article carrier 10 to be stripped from the supply reel SR, and it is obvious that the intervening step of placing the connected webs 11 and 12 upon a storage reel SR is not necessary, and that after the webs 11 and 12 have been treated as described with reference to FIG. 3 they may immediately be further treated in the manner described with respect to FIGS. 4 to 7 for the placement thereof around the containers C. By reason of the initial stretching of the webs 11 and 12 at the stretching rollers for each such web, and by reason of the stretch of the loops L about the frusto-conical members 36 on the turret web 34, and by reason of the memory characteristics of the resins employed in the films 11 and 12, the loops are thereafter caused to snugly engage the sides of the containers C.

After the placement of the article carrier 10 about the containers C, the groups G may be separated preferably of six containers each, by any suitable transverse severing means.

I claim:

,1. A method of making a carrier from webs of resinous material, said carrier being particulraly adaptable for the transport of a container group comprised of generally cylindrical shaped containers, said method comprising the steps of:

(a) feeding a pair of webs;

(b) slitting one of said webs longitudinally thereof into two side by side web elements;

(c) slitting the other of said webs at regular intervals throughout the length thereof;

((1) moving the two webs in lapping relationship;

(e) connecting and sealing the two webs together transversely thereof at intervals between where the other of said webs is unslitted.

2. A method according to claim 1 including the step of folding the said other web along a line coextensive with the longitudinal slit therein.

3. A method according to claim 2 including the step of opening the loops defined by the longitudinally slit and the intervally slit webs and placing each of said loops over one of the containers of said container group.

4. A method according to claim 3 including the step of stretching each of said loops prior to placing of said loops about said containers.

5. A method according to claim 1 which includes the step of stretching said webs.

6. Apparatus for forming a carrier from webs of resinous material, said carrier being particluarly adaptable for the transport of a container group comprised of generally cylindrical shaped containers, said apparatus comprising:

(a) means for feeding a pair of webs;

(b) means for slitting one of said webs longitudinally into side by side web elements;

(c) means for slitting the other of said webs at intervals longitudinally thereof;

((1) means for moving the two Webs in lapping relationship;

(e) means for connecting and sealing the two Webs transversely thereof at intervals between where the said other web is unslitted.

7. Apparatus according to claim 6 including means for folding the so-connected webs longitudinally of the intervally slitted web to define carrier loops flanking such intervally slitted web.

8. Apparatus according to claim '7 including means for opening the loops formed in the so-connected webs.

9. Apparatus according to claim 8 including means for stretching said loops prior to placing same about said containers.

10. Apparatus according to claim 6 which includes means for stretching said webs.

References Cited UNITED STATES PATENTS 2,848,132 8/1958 Davous 156-l97 X 3,032,944 5/1962 Hull et a1. 5348 3,044,230 7/1962 Fisher 53-48 X 3,097,740 7/1963 Poupitch 53--3 X THERON E. CONDON, Primary Examiner R. L. SPRUILL, Assistant Examiner US. Cl. X.R.