US2083067A

US2083067A - Packaging machine

Info

Publication number: US2083067A
Application number: US647393A
Authority: US
Inventors: Thomas R James
Original assignee: General Mills Inc
Current assignee: General Mills Inc
Priority date: 1932-12-15
Filing date: 1932-12-15
Publication date: 1937-06-08
Anticipated expiration: 1954-06-08

Description

9 Sheets-Sheet 1 T. R. JAMES PACKAGING MACHINE Filed Dec. 15, 1932 June 8, 1937.

June 8, 1937. 11R, JAMES 2,083,067'

PACKAGING MACHINEl 9 sheets-Sheet 2 Filed Dec. 15, 1932 THo As BJI/ AMES B/VOL INVLN-ro ArToRNsyS June 8,1931 T. R. JAMES l 2,083,067

PACKAGING MACHINE l Filed D'ec. 15, 1932 9 Sheets-Sheet 3 THoMA s F?. JA Mss EVIL/gl ww.

June 8, 1937.

1. R. JAMES l AcxAeIne MACHINE Filed Dec. 15, 1932 9 Sheets-Sheet 4 H0r||||||| .in

NVENToR THAAS R...L4MES B'yJu, bj/@arc ATTORNEYS June 8, 1937. T. R. JAMES 2,083,067

` PACKAGING MACH/INE 'Filled nec. 15, 1932 9 sheets-sheet 5 INvcN-ron oM .s lJAMEs H K F155 57M 'w Wam June 8, 1937. T. R. JAMES PACKAGING MACHINE Filed Dec. 15, 1932 9 Sheets-Sheet 6 [N VEN-ron As RJAMcs A-rroRNcys June s, 1937. T. R. Mmes 2,083,067

PACKAGING MACHINE Filed Dec. 15, 1932 9 Sheets-Sheet 7 INVENTOR THo ASIJAMES Byllaal, i r-fdf/r-Q.

ATTORNEYS June 8, 1937. 1', R JAMES y2,083,067

PACKAGING MACHINE Filed Dec. 15, 1932 Y 9 Sheets-Sheet 8 l2 226 n a5 Avronways v INVEN-ron 18A THQ s R. JAMES y Sa/4l, kcal *jm June s, 1931. T. R. JAMES 2,083,061

PACKAGING MAGHINE Filed Dec. 15, 1932 9 sheets-Sheet 9 90 I loo i INvENToR Ho SRJAMES 1:1414 4 f l,

/3 By MVM- ATTORNEYS Patented June 8 1937 UNITED STATES PATENT OFFICE PACKAGING MACHINE Thomas R. James, Minneapolis, Minn., assigner to General Mills, Inc., Minneapolis, Minn., a corporation of Delaware Application December 15, 1932, Serial No. 647,393

34 Claims.

sealing the open tops of filled bags, and it is an object of the invention to provide improved bag 10 shaking means andshaping means, and bag top intucking means, scoring means, folding means, and sealing means, together with novel combinations and arrangements of these means.

The bag closing and sealing machines heretol fore in general commercial use are of such nature that the various packaging operations are performed upon the bag while at rest so that the advancement of the bag through the machine is necessarily intermittent. Such intermittent op- 20 eration has a number of disadvantages, among which an important one is that the development of high speed operation is seriously limited. This invention contemplates a packaging machine which lends itself more readily to high speed S-:operatiom and it is a further general object of the invention to provide a packaging machine wherein the various packaging operations are performed upon the bags while in continuous movement whereby the necessity for intermit- 30 tent operation is' dispensed with.

A further object of the invention lies in the provision of such a machine which is adjustable to bags of various shapes and sizes.

These and other objects of the'invention will 35 becomemore readily apparent upon a detailed study of the specification and accompanying drawings in conjunction with the appended claims.

In the drawings: Figure 1 is a front elevation of the machine partially broken away to more clearly show the means for tapping or imparting a vibratory motion to the bags to settle the material therein; Figure 2 is a rear elevation of the machine;

Figure 3 is an enlarged plan view of one end of the machine showing the means for successively feeding the containers or bags into the conveyer means, and also the means for discharging the sealed bags or containers from the 50 machine;

Figure 4 is a, plan view of the opposite end of the machine showing the driving means for the intucking and scoring mechanisms;

' Figure 5 is a cross-sectional view on the line 55 5 5 of Figure 4, showing the rails for supporting the bags or containers in the conveyer means while they are being operated upon to settle the material therein, and also showing the means for transversely scoring the partially folded bag tops;

Figure 6 is a detail sectional view on the line 6-6 of Figure 5, showing the intucking mechanism; k

Figure 7 is a detail sectional view lon the line 1-'1 of Figure 6, with' some of the parts omitted;

Figure 8 is a, detail sectional view on the line 8-8 of Figure 6, showing the means for operating the bag shaping mechanism;

' Figure 9 is a detail sectional view showing the means for supporting the side walls of the conveyer means, and whereby said walls may be relatively adjusted to vary the spacing `therebe tween to accommodate bags of different sizes;

Figure 10 is a detail sectional view showing the mechanism for intucking the end walls of the bag mouth before the walls thereof are scored, some of the parts being omitted;

Figure 11 is a detail sectional view on the line lI-Il of Figure 10, showing the bag top positioned between the scoring members, and the end wall folding members in operative positions; Figure 12 is a detail sectional view on the line I2|2 of Figure 10, showing the means adapted to be inserted into the open bag top to support the bag top walls while the end wall folding members are intucking the end walls thereof;

Figure 13 is a detailsectional View showing the 'normal inoperative positions of the scoring members and the plates for supporting the bag top walls while being folded' to the positions shown in vFigure 11; Figure 14 is a view similar to Figure 13, showing the scoring members engaged with the bag top to form a plurality of transverse score marks therein;

Figures 15 to 18 are enlarged detail sectional views vof the spiral means into which the bag tops are delivered from the scoring members. and wherein they are folded into a plurality of transverse folds;

Figure 18A is a detail sectional view showing a means for guiding the transversely foldedl bag top intoengagement with the,bag body;

Figure 19 is a detail view showing a 'ller block secured to'one of the carriers to adapt the machine lfor handling bags of a smaller size;

Figure 20 is a detail sectional view on the line 20-20 of Figure 6, showing the bag shaping means provided with ller blocks to adapt the machine for handling bags of smaller dimensions; and

Figure 21 is a perspective view of a sealed bag.

Machine frame The supporting frame of the machine is shown comprising

upper side rails

2 and 3 having their ends secured to suitable legs 5, and similar

angle iron rails

6 and 1 are shown secured to the intermediate portions of the legs 5, as shown in Figures 1 and 2. A cross member 4 secures together the legs 5 at one end of the machine, and a similar member I0 secures together the legs at the opposite end of the apparatus. Upright members 8 are shown secured to the longitudinally extending side rails of the supporting frame and have a plate 9 secured thereto adapted to provide a support for a suitable motor I I which, in the present instance, provides the source of power for operating the machine.

Conveyer means The means for conveying the filled bags or containers through the machine while the walls of the open tops thereof are being operated upon to close and seal the bags, is shown in Figures 1, 3, 4, 5, and 6.

The conveyer means comprises a plurality of carriers generally indicated by the numeral. I2, each comprising a plate portion I3 having a depending portion I4 sldably supported in suitable guides provided in a slide I5, mounted for traveling movement upon a suitable rail I6 and the marginal edges of spaced plates I1 and I8, as best shown in Figure 5. Each slide I5 comprises an upper plate portion I9 and a lower plate 2I secured together by suitable'spacing studs 22, which studs are adapted to travel in the gap or space provided between the adjacent edges of the rail I6 and the plates I1 and I8. The depending portion I4 of the plate I3 is preferably forked, as shown in Figure 1, and the lower ends thereof project through the plate 2| and have a shoe 23 lsuitably secured thereto. Compression springs 24 are coiled about the forked ends of the depending portion I4 andvcooperate to constantly urge the carrier downwardly, as will readily be understood by reference to Figures 1 and 6. The upper plate member I 9 of the slide I5 has an upstanding plate portion 25 adapted to engage the bag and thus push it along through the machine, while the bag is supported upon the plate I3. Each carriage thus comprises in effect, al plate I3, depending portion I4, slide I5, upstanding portion 25, shoe 23 and springs 24.

At the receiving side or front of the machine, the carriers are arranged to travel between a pair of

upright walls

26 and 21 secured to brackets 28 which, in turn, are adjustably secured to the side rail 2 of the machine frame, and to the upper plate I1, which forms one side of the guide .for the slides I5, as best shown in Figure 5. Bolts 29 secure the brackets 28 to the machine frame, and are received in suitable slots provided in said brackets. By thus adjustably supporting the brackets 28, the

walls

26 and 21 may be relatively adjusted with respect to each other, whereby the space therebetween may be varied to adapt the machine for handling bags of different sizes. The upper marginal edges of the

side walls

26 and 21 are preferably turned outwardly, as shown at 3I in Figure 5.

The carriers I2 are operatively connected to a suitable drive chain 32 in spaced relation. This chain is supported upon

suitable sprockets

33 and 34 provided at the ends of the machine frame. The sprocket 33 is secured to an upright shaft 35 mounted in suitable bearings 36 and 31 provided in a bracket 38 suitably secured to the machine frame. A spur gear 39 is secured to the lower end of the shaft 35 and meshes with a pinion 4I secured to an upright shaft 42, the lower end of which is supported in a bearing 43 secured to a cross member 44 of the machine frame. 'I'he shaft 42 has a bevel gear 45 secured toits lower end which meshes with a pinion 46 secured to a drive shaft 41, shown mounted in suitable bearings 48 suitably secured to the machine frame. The drive shaft 41 has a pulley 49 secured to one end thereof which is driven by a belt 5I from the motor I I, as clearly shown in Figure 2.

The vertically spaced horizontal plates I1 and I8 are secured to an elongated box-like member 52, having its end portions secured to suitable cross members I0 and 4 of the machine frame, as will be noted by reference to Figures 1 and 2. The box-like member 52 and the plates I1 and I8 secured thereto provide, in effect, a portion of the machine frame, as they are suitably secured to the side rails of the frame, and various mechanisms of the machine are supported thereon.

At the ends of the machine frame, the plates I1 and I8 are rounded or curved, as clearly shown by the full and dotted lines in Figures 3 and 4 and, in like manner, the channel member guide rail I6 is curved and has its adjacent edges spaced from the edges of the plates I1 and I8 to provide the gap 20 therebetween, through which the upright studs 22 of the slides I5 of the carriers I2 travel. Suitable guide walls 54 are provided at the left hand end of the conveyer means, when viewed as shown in Figure 4, to support the bags or containers upon the carriers I2, as they travel around that end of the machine. The upright portions 25 of the slides I5 are shown provided with rearward extensions 55 which support said upright portions when pushing bags through the machine. These rearward extensions are shown as being of triangular configuration as will be noted by reference to Figure 4, so that they may adequately clear the curved wall 54 when they travel around the left hand end of the machine. The curved wall 54 is supported upon suitable brackets 56 adjustably secured to the side rails 2 and 3 of the machine frame by suitable bolts 51.

Feeding mechanism Means is provided for successively feeding bags onto the carriers I2 without interrupting the traveling movement of the carriers. Such means is best shown in Figures 1, 3, and 5, and comprises a horizontally disposed plate 58 which serves as a table upon which the bags may be delivered from a packer or other source of supply. An upright wall 59 is provided at one side of the table 58 and has a member 6I connecting it with the inner wall 26 of the conveyer means, above the line of travel of the carriers. A suitable pusher 62 is secured to the upper end of an arm 63, the lower end of which is loosely mounted upon a shaft 64, shcwn supported in bearings 65 and 66 secured to the upright members 8 of the motor supporting frame, and a third bearing 61 supported from the lower side rail 6 of the machine frame. The arm 63 is offset adjacent its upper end, as shown at 68 to permit the pusher blade 62 to travel over the top of the table 58 and thereby push the bags from the table 58 onto the carriers l2, as they pass the table 58. The outward movement of the arms 63 may be limited by a suitable stop 69, here shown consisting of a notched plate having one end secured to the side rails 6 of the machine frame, as best shown in Figure 1. A suitable spring 1| normally holds the arm 63 in engagement with the limit 'stop 69.

The pusher blade 62 is adapted for automatic operation and its movement is controlled by the movement of the bags upon the table 58. At .the left hand end of the table, when viewed as shown in Figure 3, there is mounted a trip 12 whichis shown longitudinally alined with the table 58 so that when a bag is moved over the top of the table 58, it will engage said trip and cause the operating mechanism of the pusher blade arm 63 to function and operate said arm. The trip 12 is pivoted at 13 to the machine frame, and has an offset arm 14 connected to one end of a dog 15 by means of a rod 16 and a tension spring 11. The dog 15 is pivotally mounted upon the'lower end of the pusher arm 63 and is adapted to be engaged by a shoulder 18 provided at the outer end of a short arm 19 which is adjustably secured to the shaft 64 by suitable means such as indicated in dotted lines in Figure 5.

The shaft 6,4 is rocked continuously, when the machine is operating, by an arm 8| having a connecting rod 82 connecting it with a crank 83 provided upon one end of a shaft 84, one end of which is shown supported in a bearing 85 secured to anupright 86 provided upon the machine frame.

In the operation of the feeding mechanism, a

bag is delivered onto the table 58 and moved into` engagement with the trip 12, whereupon the pusher blade 62 will be automatically operated to push the bag engaged with the trip into the path of travel of the carriers betweenl the

walls

26 and 21, whereby it will drop by gravity onto the ledges |03, because of the table 58 being situated at an elevation above said ledges, as shown in Figure 5. The springs 1| and 11, it will be noted, are secured to opposite ends of the dog 15, and the spring 11 is relatively stier than the spring 1|, so that when the trip is actuated, the tension in the spring 11 will overcome the tension in the spring 1| and move the dog into position to be engaged by the shoulder 18 of the arm 19. The pusher blade 62 operates in timed relation to the travel of the carriers.

Jarring mechanism An important feature of the invention resides in the means provided for jarring the bags to cause the material therein to become settled. Such means is best shown in Figures 1 and 9, and comprises a vertically movable track 81 having depending extensions 88 received in vertical guides 89 suitably secured to thc machine frame. Each guide has an anti-friction roller 9| adapted to take the thrust exerted on the track 81 as a result of the shoes 23 of the carriers frictionally engaging the upper surface thereof, as shown in Figure l. The right hand end of the track 81 is inclined as shown at 92 to permit the shoes 23 of the carriers to move into engagement with the upper surface of the track without impinging against the end thereof when the bar is in its uppermost position, as shown in Figure 1. Upand-down movement is imparted to the track 81 by suitable cams 93 secured to shafts 94 mounted in suitable bearings 95 fixed to the machine frame, as best shown in Figure 9. The upper web of the side rail 6 is cut away, as shown at R in Figure 9, to provide clearance for the cams 93 as they rotate about the axes of the shafts 98. The shaker track is shown provided with suitable anti-friction rollers 96 which ride upon the peripheries of the cams 93, as will be noted by referencejto Figures 1 and 9.

The shafts 94 are shown provided with sprockets 91 adapted to be driven by a chain 98 operatively connected to the drive shaft 41 by a Suitable sprocket 99 secured to the shaft 41. An idler sprocket |0| is adjustably supported upon a member |02 of the machine frame whereby slack in the chain 98 may be taken up.

The bags, as they `travel from the table 58 to the left hand end of the machine, are supported upon a pair of inwardly projecting ledges |03 provided upon the lower portions of the

side walls

26 and 21 of the conveyer means These ledges are located at an elevation intermediate to the upper and lower limits of the vertical movement of the plates I3 of the carri-ers, so that a tapping action will be exerted upon the` bottoms of the bags as they travel through the conveyer means. This will readily be understood by reference to Figure' 5, wherein it will be noted that when the shaker track 81 is in its lowermost position, the plates I3 of the carriers will move out of engagement with the bottoms of the bags because of the bags engaging the ledges |03 and being supported thereby. When the track 81 moves up wardly, the plates I3 of the carriers will impinge against the bottoms of the bags, whereby the bags will be thrust upwardly, as will readilybe understood by reference to Figure 5, and upon the4 downward movement of the plates I3, the bags will impinge against the ledges or rails |03, whereby la double tapping action is obtained, which results in the lcontents of the bags quickly becoming settled therein so that by the time they reach the left hand end of the machine, the material will be thoroughly settled therein. track |04 is provided at the left hand end of the shaker track 81 adapted to be engaged by the shoes 23 of the carriers I2, as will readily be understood by reference to Figure l. This xed track |04 guides the plates I3 downwardly to their lowermost positions, as shown at the left hand side of Figure 5. Y

From the foregoing, it will be noted that the bags or containers will be constantly tapped or jarred as they travel from the feeding table 58 to -the left hand end of the machine, so that by the time they reach the intucking mechanism, which will subsequently be described, the material has become thoroughly settled therein.

Intucking mechanism Another feature of the invention resides in the means provided for intucking the end Walls of the bag between the side walls, before the bag top is transversely folded. Such means is best shown in Figures 4, 5, 6, 10, and ll, and comprises a pair of end wall folding members |05 and |06 pivotally supported upon a bar, generally indicated by the numeral |01, and which will hereinafter be referred to as the supportingbar. This bar is here shown comprising two strap-like members |08 secured together in spaced relation and rivets or bolts I l. The folding members |05 and I 06may be formed from sheet metal and are supported between the straps |08, as shown in Figure5, The folding members arecperatively connected together by a pair of intermeshing gear segments I I2, whereby said members will operate simultaneously in opposite directions, as will readily be understood by reference to Figure 6.

A fixed 'by suitable means such as spacing blocks |09 A suitable spring I I3 connects together the upper tends to urge the lower ends thereof in an outward direction to the 'position shown in Figure 6.

To support the walls of t /e open bag'top dur'- ing the inward folding of th end walls, a pair of plate elements ||4` are pivotally supported upon the bar |01 by means of suitable blocks ||5 secured to the opposite sides of the bar |01, and from which the elements I |4 depend, asclearly shown in Figures 6 and 12. A member ||6 is secured in position between the members |08 of the supporting bar |01, and depends Adownwardly therefrom between the plate elements I I4 to provide a support for the adjacent ends of suitable compression springs I|1, the opposite ends of which engage the plate elements I|4, as best shown in Figure 12. A bolt or pin I |8 is received in suitable apertures provided in the plate elements ||4 and the supporting member ||6, and provides means for retaining the springs ||1 in position, and also limits the outward movement or expansion of the plate elements ||4. The plate elements ||4 are adapted to be inserted into the mouth of the bag to support the walls thereof while the end wall folding members and |06 are folding. the end walls of the bag mouth inwardly between the side walls thereof, as will be clearly understood by reference to Figures 10 and 11. Suitable stop pins ||9 limit the outward movement of the end wall folding elements |05 and |06, as shown in Figure 6. 'I'he plate elements ||4 are removably mounted upon the supporting bar |01, so that they may readily be interchanged, which is usually necessary when changing from one size of bags to another'.

'Ihe supporting bar |01 is mounted for reciprocal movement lengthwise of the conveyer means, and travels at substantially the same speed as the carriers I2, when moving forwardly. AThe means for reciprocating the bar is shown comprising a cam |2| secured to a shaft |22 supported in suitable bearings |23. These bearings may be secured by bolts |25, to the upper ends of a pair of uprights |24 supported upon the side rails 2 and 3 of the machine frame. The uprights |24 are here shown as being formed of sheet metal, and have inwardly bent portions |26 and |21 to which suitable tie bars |28 may be secured, as best shown in Figure 4. The upper ends of the uprights are also shown provided with inwardly turned flanges |29 to which a plate |3| may be secured to brace the upper portions of the uprights.

The opposite end of the supporting bar |01 is shown'provided with an arcuate slot |38 adapted to receive an anti-friction roller |39 secured to a crank |4| provided on a shaft |42, mounted in suitable bearings |43 secured to upright angles or posts 44,- having their lower ends suitably secured to the side rail 2 and plate |1 of the machine frame. Suitable disks |45 are interposed between the cheeks of the crank I4I and the portion |46 of the bar |01, for obvious reasons, as may be noted by reference to Figures 7 and 10. The roller |39 traveling in the arcuate slot |38 controls the vertical movement of the supporting bar |01, so as to cause the plate elements I|4 to be inserted into and removed from the bag mouth at the proper periods during each cycle of operation of the intucking mechanism. The slot |38 also 1 .causes thebar |01 to travel forwardly in substantiallya horizontal position.

The shaft |22 upon which the cam 2| is secured, has a sprocket adapted to be driven by a. chain which is operated from a sprocket secured to the shaft |5|, as best shown in Figures 6 and 1.

The hub of the pinion |69 has a flange at one end spaced from the adjacent' face of the pinion to provide an annular groove adapted to receive an inwardly turned flange Ak|12 provided upon a lateral extension |13 of a hub |14, secured to the upper end of the shaft 42, as shown in Figure 6. A suitable set screw |15 isreceived in threaded engagement with the extension |13 and provides means for locking the hub |14 to the flange |1| of the pinion |69, whereby th'e pinion will be secured for direct rotation with the shaft 42. By thus adjustably securing the pinion |69 to the shaft 42, the operation of the intucking and scoring mechanisms may be conveniently timed to the travel of the bags so as to insure that the bags will be alined with said mechanisms before the latter engage the bag top walls.

The intucking mechanism operates continuously when the machine is operating, regardless of whetherbags are being fed through the machine or not. In other words, its operation is not dependent upon the delivery of the bags thereto.

Scoring and shaping mechanism Another feature resides in the means provided for scoring or creasing the partially folded bag top walls and shaping the bag bodies. Such means is best shown in Figures 5, 6, 7, 8, and 10 to 14, inclusive. The means for scoring the bag tops comprises a pair of complemental jaws |82 and |83 adapted for movement towards and away from each other, as sliown in Figures 13 and'14. The jaw |82 is supported upon crank arms |84 secured to the lower ends of apair of upright shafts |85, havinggears |86 secured to the upper ends thereof, one of which meshes with the gear |68, as shown in Figure 4. 'I'he other gear |86 mesheswvith a similar gear |81 secured to the upper end of a shaft |88. Similar cranks |89 are secured to the lower ends of the shafts |61 and |88 and pivotally support the jaw |83, as will readily be understood by reference to Figures 5 and 7. The shafts |61, |85, and |88 are supported in suitable bearings provided in the brack- Aets and |58.

The jaw |82 is shown provided with a pair lof longitudinally extending grooves |9| adapted to receive a pair of spaced tongues or blades |92 provided upon the jaw |83, when the jaws are moved into scoring engagement with the bag top, as shown in Figure 14. The scoring jaws operate continuously and simultaneously with the end, wall folding members |05 and |06, and in such a manner that when the jaws engage the bag top, as shown in Figure 14, they travel at substantially the'same speed as the bag tops so as to prevent slippage between the jaws and bag top, when the jaws grip the latter.

The means for shaping the bag body is shown in Figures 6 and 8, and comprises a pair of wings shown/in Figures 2 and 5. and is operatedby 'f |93 securedV to apair of rock shafts |94 and |95 having their upper ends supported in suitable brackets |96, as shown inFigure 5. The intermediatev portion of the rock shaft |94 is supported in the plate |'^1, which constitutes a portion of the machine frame. The rock shaft |95.is

.similarly supported in the horizontal web of the side rail 3 at the rear of the machine.

The lower ends of the rock shafts |94 and |95 are operatively connected together by means of a chain |91 which has a running connection with an idler sprocket |98 supported ina bracket |99 secured to the machine frame, as shown in Fig- The ends of the chain |91 arey shown ure 5. secured to suitable disks or sprockets fixed to the lower ends of the rock lshafts in such a manner that said shafts rotate in opposite directions.

The rock shaft |95 has anarm 20| secured thereto which is connected to the lower end of a bell crank 202 by means of a suitable connection 203. The/bell crank 202 is pivotally supported upon a stud 204 secured to the bracket |58, as

means of a cam 205 secured to one end of the crank shaft |42, as shown in Figure '1. By thus operatively connecting the plates |93 with the crank shaft |42, said plates will be actuated each time the intucking mechanism goes through a cycle of operation. The operation of the plates |93 is so timed with respect to the operation of bags of diiferent sizes, suitable adaptor blocks 206 may be secured to theV plates |93, as shown in Figure 20.

During the creasing of the bag top, the bag is moved upwardly yso as to square the upper portion thereof, as will readily be understood by reference to Figure 14. Tothus elevate the bags, means is provided for vertically moving each carrier I2 when ityreaches a position beneath the intucking mechanism.

Such means is best shown in Figure 6, and comprises a vertically movable rail section 201 secured to the upper end of a rod 208 mounted for sliding movement in a suitable guide 209 secured to the cross member 44 of the machine frame. One end of an arm 2|| is pivotally connected to a sleeve 2|2 and its opposite end to a bracket 2|3 secured to the ymachine frame, as shown in Figure 6. In the drawings, the arm 2| is shown comprising two members spaced'apart to receive the sleeve 2|2 and an anti-friction roller 2|4 which is adapted to ride upon the periphery of a cam 2|5 secured to the shaft |63. The periphery of the cam 2 |5 is so shaped that when the machine is operating, the high point thereof will engage the roller 2|4 and oscillate the arm.

2| l, whereby the rau ysection 201 win be elevated from the full to the dotted line position shown in Figure 6. It is to vbe understood that the rail section 201 is not elevated until the shoe 23 of lone of the carriers is positioned thereover, so that when the rail section 201 is actuated, it will elevate the carrier plate |3, whose shoe 23 may be engaged therewith, whereby the bag top will be compressed against the lower faces of the creasing members |82 and |93, as best shown in Figure 14. The rail section 201 is adapted for vertical adjustment in the sleeve 2|2 by suitable means such as a set screw 200, whereby the upper portion of the bag may be properly positioned withrespect to the scoring members. Suitable adaptor blocks I0 may be secured to the plates carriers will move out Iof engagement with the vvertically movable rail section 201 and onto a rail 2|6, `having one end supported upon an upright post 2|1 mounted for vertical adjustment in the machine frame, ywhereby said rail may be relatively adjusted to properly position the bags with respect to the 'folding mechanism, which will subsequently be described. 'I'he lower end of the post 2|1 vmay be .provided with a knurled head 218, whereby it may be conveniently rotated.

The periphery of the cam 2 I5 is provided with a substantially flatportion 2 |9 which engages the roller 2|4 and supports the arm 2|| in substantially a fixed position, whereby the vertically movable rail section 201 will b'e temporarily retained in alinement with the rail 2|6, to allow the shoe 23 of the carrier I2 to pass therefrom onto the rail 2|6.

Folding mechanism Another feature of the invention resides in the construction of the folding mechanism, which is best shown in Figures 4, 6, 10, and 15 to 18, inclusive. This mechanism comprises a. spiral groove 220 into which the scored bag tops are delivered from the intu'cking mechanism.-

The groove 220 is best shown in Figures 15 to 18, and is formed by complemental plate members 22| and 222, the former being shown secured to a longitudinally extending bar 223 which is secured to an elongated plate 224. The plate member 222 is secured to a similar elongated plate 225. The

plates

224 and 225 have their adjacent edges spaced apart, as shown in Figure 15 and may be suitably supported from the cross pieces |28 by

suitable connections

226 and 221, respectively, as shown. The adjacent edges of the

plates

224 and 225 at the receiving end of the spiral groove 220, provided between the'complemental members 22| and 222, are curved outwardly, as shown at 228 in Figure 4, whereby the scored bag tops are guided into the groove provided between said plates, fromthe intucking mechanism.

I'he plate members 22| and 222 extend from AL adjacent to the intucking mechanism, to B, adjacent to a pair of pressure rollers 229, as shown in Figures 4 and 3. Figure 15 shows the formation of the complemental members 22| and 222 at the receiving end of the groove, and shows a scored bag top positioned therebetween. Figures 16 and 1'1 show cross-sectional views of the plate members 22| and 222 at different points between the receiving and discharge ends thereof, to show how the bag top is transversely folded as it passes through the groove 220, formed by said members. Figure 18 shows the position of the bag top when discharged from the spiral groove, and in which position it is delivered `to the pressure rollers 229 which firmly press the folded wall portions together.

Gumming mechanism Suitable means is provided for securing the folded bag top walls in sealing relation and, in the present instance, I have shown a gumming mechanism for applying a coating of gum to the folded bag top and bag body, which is similar to the gumming mechanism disclosed in the pending application of Helmer Anderson, Serial No. 615,827, filed June 7, 1932. The gumming mechanism comprises the pressure rollers 229 between the peripheries of which the folded bag top Walls are delivered from the spiral groove 220 while in the position shown in Figure 18, as hereinbefore stated. The pressure rollers are shown driven from the shaft 84 by suitable bevel gear drives 232. Suitable tension means, not shown, are provided for urging the rollers 229 into peripheral engagement with each other, whereby said rollers may yield to permit the folded bag top to pass therebetween. The shaft 84 is driven by the chain |30, as will be noted by reference to Figure 1.

From the pressure rollers 229, the partially folded bag top passes under a gum container 233 through a suitable guide, which supports it ln the upright position in which it is received from the pressure rollers 229. The container 233 is adapted to contain a suitable gum which is applied to the partially folded bag top and to a portion of the bag body by a suitable gumming wheel 234, shown mounted on a shaft 235 driven by a chain 236 from a jack shaft 231 which, in turn, is shown driven from the shaft 23| by a chain 238. When the gummed bag leaves the gumming wheel 234, it passes under a suitable guide 239 which folds the gummed bag top downwardly against the bag body. Suitable means such as a pivoted finger 24| may be provided for guiding the folded bag top into position against the bag body, as indicated in Figure 18A. This finger isbriefly illustrated in Figure 3, and may be supported upon a short shaft 242 having an arm 243 adapted to be actuated by a cam 244 secured to the shaft 231. The gumming mechanism, including the finger 24 I, forms no part of the present invention, and it is therefore thought unnecessary to lfurther describe the same in detail. Obviously, other types of sealing mechanisms may be employed without departing from the scope of the invention.

Efecto? IThe means for ejecting the sealed bags from the conveyer means is shown in Figure 3, and comprises a pair of arms 245 carrying blades 24E which are adapted to engage the bags and eject them from the carriers I2, when the latter reach vthe position shown at the right hand side of Figure 3. y

From the carriers, the bags are ejected onto movementin suitable guides 25|, and adapted to be actuated by a connection 252 having one end connected to a crank arm 253 secured to the shaft 84, as shown in Figures 1 and 3. The ejector arms 245 may be driven by a chain 254 from a shaft 255 carrying the sprocket 34, which supports the main conveyer chain at the right hand end of the machine.

Operation The lled bags are delivered onto the receiving table 58, and when they engage the trip 12, the feed member 62 which operates in timed relation to the travel of the carriers |2, will deliver a bag into the conveyer means in the path of travel of the carriers, whereby each carrier will engage a bag and convey it through the machine provided, of course, that the bags are delivered to the table 58 at a speed commensurate to the travel of the carriers. Because of the up-anddown movement imparted to the track 81 by the cams 93, the bottoms of the bags will be constantly tapped by the carriers |2, as they travel from the right to the left hand end of the machine, whereby the material will become settled therein. as hereinbefore described. As the carriers reach the left h and end of the machine, when viewed as shown in Figure 1, the shoes 23 thereof will engage the track |04, at whichtime the bags will move out of engagement with the ledges |03, and the plates i3 of the carriers will descend to their the carriers by the ejectors 245 onto the receivlowermost positions, as shown at the left hand side of Figure 5.

Following the-jarring or shaking of the bags at i the front side of the machine, they are delivered to the intucking mechanism, shown in Figures 6 and 10, and as each bag reaches a position substantially directly beneath the blades ||4 of the supporting bar |01, the bag body shaping wings |93 will move into the path of the approaching bag, as indicated in the dotted lines in Figure 20. The wings |93 swing through suitable openings provided in the side walls and |00 of the conveyer means, as shown in Figure 6. The wings |93 are actuated by the cam 205, as hereinbefore described, and the periphery of said cam is so shaped that the bag is momentarily compressed between the wings |93 and the upright blade 25 of the carrier, without interrupting the movement of the latter.

At substantially the same instant that the wings |93 are swung into operative positions, the supporting bar |01 is lowered by the action of the crank |4| so as to cause the plate elements ||4 to enter the mouth of the bag, as indicated by the dotted lines in Figure 13. Because of the bar |01 being moved forwardly 'at the same time', by the action of the cam I2I, the roller |11 on the arm |18 of the end wall folding member |06 will engage the fixed cam |19, whereupon the end wall folding members |05 and |06 will be moved inwardly between the plate elements 4, as best shown in Figure 1l, and thus fold the end walls of the bag top inwardly between the side walls thereof, whereby the bag top walls are folded into scoring members |82 and |83 reach the positions shown in Figure 14, the vertically movable rail section 201 will be thrust upwardly by the action of the cam 2|9', whereby the plate I3 of the carrier positioned over the rail section 201 will also be elevated and cause the top of the bag positioned thereon to be moved into engagement with the bottom faces of the scoring members, as shown in. Figure 14. The rail section 201 is then partially lowered and is temporarily retained `in a' partially elevated position to allow the shoe 23 of the carrier to'engage the track 2|6, as will readily be understood by reference to Figure 6. From the intucking mechanism, the partially folded bag top is .delivered into the spiral groove 220 formed by the complemental members 22| and 222, as shown in Figure 13, and as the bag top passes through this groove, it is transversely folded over and over upon itself until it reaches the point B at the discharge end of the groove, wherein it will be folded substantially to the position shown in Figure v18. 'v

The partially folded bag top then passes between the pressure rollers 229, and is guided into engagement with the gumming wheel.234 and receives a coating of gum. It is then folded over against the bag body by the action of the guide plate 239 assisted by the finger 24|, whereby it is folded flatly against the bag body, as shown in Figure 2l. The bag top is held in this position by the

plates

239 and 248, and is ejected from ing table 241. From this table, they may be delivered onto a suitable receiving means, not shown, bythe action of the pusher 249.

From the foregoing, it will be noted that the machine is auto-matic in operation. The conveyer means travels continuously and, in like manner, the shaking, intucking, and scoring mechanisms operate continuously, regardless of whether bags are being fed through the machine or not.

, I claim as my invention:

1. In a bag closing machine, means for effecting a continuous movement of the bags along a predetermined path of travel, said means comprising spaced guides between which the bags are fed, means on said guides for supporting the bags while in motion, andmeans fo-r tapping the bottoms of the bags to settle the material therein.

2. In a bag closing machine, a conveyor adaptof said carriers, and means for imparting a jarring motion to the bags while supported on said last mentioned means and without interrupting traveling movement of the bags.

3. In a bag closing machine, a conveyor comprising a plurality of carriers each adapted to support a bag, each carrier comprising a support adapted for travel/ing movement in a horizontal plane, plates mounted on said supports and adapted for vertical movement, fixed walls between which said carriers travel, inwardly projecting ledges on said walls adapted to support the bags while being advanced by said carriers, and means for imparting up-and-down movement to said plates whereby they will mpinge against the bottoms of the bags and impart a jarring motion thereto to cause the material therein to become settled.

4. In a bag closing machine, a conveyor for the bags mounted for continuous movement, cooperating members engaging and folding the bag top walls into fiatwise relation and simultaneously scoring them while in motion on the conveyor, and means for bodily movingsaid members in the direction of the conveyor and ata speed commensurate thereto.

5. In a bag closing machine, a conveyor mounted for continuous movement and comprising a plurality of carriers, each 4adapted to support a bag, cooperating elongated elements engaging and folding the bag top walls into flatwise relation, and means for horizontally moving, Isaid elements .at'a speed commensurate to the travel of the carrier.

6. In a bag closing machine, means foreffecting a continuous movement of the bags along a predetermined path of travel, a member mounted for movement over said path of travel in a plane substantially parallel thereto and comprising means adapted to engage and fold the bag top walls into atwise relation, while the bags are in motion, the horizontal movement of said member being synchronized with the traveling movement of the bags, and crank means for verti.y

bag top to fold them into flatwse relation, and the horizontal movement of said supporting member being substantially synchronized With the travel of the bags.

8. In a bag closing machine, a conveyor for the bags mounted for continuous movement, cooperating members engaging and folding the bag top Walls into flatwise relation, means for scoring the partially folded bag top Walls, an elongated member disposed over the conveyer and supporting said folding members and scoring means, and means for operating said supporting member in timed relation to the travel of the conveyer.

- 9. In a bag closing machine, means for effecting a continuous movement of the bags along a predetermined path of travel, a support mounted for horizontal movement over said path of travel and comprising folding members adapted to engage and fold the bag top walls into ilatwise relation, While the bags are in motion, the horizontal movement of said support being synchronized with the traveling movement of the bags, and means on said folding members for scoring the bag top simultaneously as it is folded into atwise relation.

10. In a machine for sealing the open tops of lled paper bags, a conveyor for the bags, means for simultaneously folding th-e bag tops into flat- Wise relation, While in motion upon the conveyor, means for transversely scoring the bag tops, and means for bodily moving said folding and scoring means in a direction lengthwise of the conveyer While operating upon the bag tops.

l1. In a bag closing machine, a conveyor mounted for continuous movement over a predetermined path of travel and adapted to convey the bags through the machine without interrup- -tion, a supporting bar mounted for reciprocal movement over the conveyer and lengthwise thereof; means on said supporting4 bar for simultaneously folding the bag top Walls into flatwise relation and scoring them, while in motion, and means for operating said supporting bar.

12. In a bag closing machine, a conveyor for advancing the bags along a xed path of travel, means synchronized with the conveyor for compressing the bags to shape the same during movement of the conveyor, and means for folding the Walls of each bag top into fiatwise relation and simultaneously scoring it while the bag is in motion. r

13. In a bag closing machine, a conveyor mounted for continuous movement and comprising a plurality of bag-supporting means, bag shaping means temporarily moved into the path of travel of each bag and against which the bag body is compressed by said bag supporting means to shape the same Without interrupting thel traveling movement of the bag, said bag-shaping means moving out of the path of the bag when the bag-shaping operation is completed.

14. In a bag closing machine, a conveyor mounted for continuous movement and comprising a plurality of bag-supporting means, means adapted to be momentarily moved into the path of travel of each bag and against which the bag is compressed by said bag-supporting means to shape the bag body horizontally, and means for applying pressure-to the bag body to shape it vertically, the operation of said shaping means being synchronized with the traveling movement of the conveyor.

15. In a machine for closing bags, means for effecting continuous movement of the bags along a predetermined path of travel, means for scoring the bag tops, and means associated with the scoring means and acting simultaneously there- With for shaping the bags.

16. In a machine for closing bags. means for effecting continuous movement of the bags along a predetermined path of travel, means for folding the bag tops into atwise relation, means for scoring the partially folded bag tops, means associated with said scoring means for applying pressure to the bag bodies to shape them vertically, and means associated with the conveyor for applying pressure to the bag bodies to shape them horizontally.

17. In a bag closing machine, means for effecting continuous movement of the bags along a predetermined path of travel, movable means for scoring the bag tops in the course of said movement, means associated with said scoring means for shaping the bag bodies, complemental members arranged along said travel path and cooperating to provide a spiral groove adapted to receive each scored bag top and fold it into a plurality of transverse folds, and the receiving ends of said complemental members being flared outwardly to provide an enlarged mouth adapted to receive and guide the bag tops into said 18. In a machine for closing bags, means foil effecting continuous movement of lled open bags along a predetermined path of travel, means for shaping the bags, means associated with said shaping means for scoring the bag tops, and means for folding the scored bag tops, said shaping, scoring and folding means operating upon the bags While they are in motion in said travel path.

19. In a bag closing machine, a conveyor mounted for continuous movement over a predetermined path of travel and adapted to convey the bags through the machine Without interruption, bag top folding means adjacent to said conveyor adapted to engage and fold the Walls of the open bag top into flatwise relation, means for scoring the bag tops, and means associated with said scoring means for shaping each bag body without interrupting the traveling movement of the bag. 20. In a bag closing machine, a conveyor adapted to-feed the bags through the machine over a predetermined path and without interruption, elongated supporting member mounted over said'conveyor and adapted for horizontal and vertical movements and having means thereon engaging the walls of the bag' tops and folding them into flatwise relation and scoring them, stationary means adapted to receive the scored bag tops and fold them into a plurality of transverse folds, and means for securing the folded bag tops to the bag bodies in sealing relation.

21. In a machine for closing open filled bags, means vfor effecting an uninterrupted movement of the bags along a predeterminedpath of travel, means for shaking the bags to settle the material therein, shaping means for horizontally and vertically shaping said bags, means for folding the bag tops into flatwise relation, means associated with said shaping means for scoring the bag tops, means for transversely folding the scored bag tops over and over to provide a plurality of transverse folds, and means for securing the folded bag tops, said shaping, shaking, folding, scoring and securing means operating upon the bags while they are in motion along said travel path.

22. In a packaging machine, means for effecting a continuous movement of the bags along a predetermined path of travel, means for jarring the bags to settle the'material therein, means.

which the scored bag tops are fed and transversely folded into a plurality of folds, and means for securing the folded bag tops to the bag bodies.

23. In a packaging machine, spaced side members defining a path of travel for the bags, means for advancing the bags between said members, means on said members for supporting the bags independently of said advancing means, and

means independent of the bag supporting means for tapping the bottoms of the bags, thereby to settle and compact the contents of the bag.

24. `In a packaging machine, spaced members defining a path oftravel for the bags, means for advancing the bags along said path of travel,

inwardly projecting ledges on said members for supporting the bags, and means for imparting a shaking motion to the bags to settle the material therein.

25. In a packaging machine, spaced members defining a path of travel for the bags, means for advancing the bags along said path of travel, inwardly projecting ledges on said members for supporting the bags independently of said advancing means, and means for engaging the bottoms of the bags to impart a shaking motion thereto to settle the material therein.

, 26. In apackaging machine, members defining a path of travel for the bags, means for advancing the bags between said members, inwardly projecting ledges on said members for' supporting the bags independently of the advancing means, said ledges having their inner edges spaced apart, and means mounted for vertical movement beneath said bags adapted to engage the bottoms thereof and impart ashaking movement thereto.

2'7. In a packaging machine, members defining a path of travel for the bags, means-for advancing the bags between said members, inward- ,ly projecting ledges on said members for sup-l porting the bags independently of th bagadvancing means, said ledges having their inner edges spaced apart, and means mounted for up and down movement between said ledges adapted to engage the bottoms of the bags and thereby impart a shaking movement to the bags. V

28. In a packaging machine, spaced members defining a path of travel for the bags, conveying means for advancing the bags along said path of travel, means between said members for supporting the weight of the bags independently of said conveying means, means associated with said conveying means for tapping the bottoms of the bags to settle the material therein, and

mechanisms for closing the bag tops.

29. In a bag closing machine, spaced members defining a path of travel for the bags, conveying means for 'advancing the bags along said path of travel, means on said members for supporting the bags independently of said conveying means, means associated with s aid conveying means for tapping the bottoms of the bags to settle'the material therein, a mechanism for folding the open bag top walls into atwise relation and simultaneously scoring them, and means for completely closing the bag top and securing it against accidental opening.

30. In a packaging machine, a conveyer for advancing a filled open bag along a predetermined path, plate elements insertable -into the open bag mouth, means for engaging the end walls of the bag top and intucking them betweenY said plate elements and the side walls of the bag top to thereby partially close the bag mouth, cooperating members engaging and pressing the partially folded bag top walls into i'latwise relation and simultaneously scoring the same, and means operating in timed relation to said pressing and scoring members for moving said -plate elements and intucking means out of engagement with their respective bag top walls before the latter are pressed into flatwise relation by said members.

31. In a bag closing machine, a conveyer for advancing a filled open bag along a predetermined path, plate elements insertable into the open bag mouth whereby they may engage the side walls of the bag top,'me'ans forengaging the end walls of the bag top and intucking them between said plate elements and the side walls of the bag top to thereby partially close the bag mouth, cooperating elongated members engaging and pressing the partially folded bag top'walls intoflatwise relation and simultaneously scoring the same, means operating in timed relation to said pressing and scoring members for moving said plate elements and intucking means out of engagement with their respective bag top walls before the latter are pressed into iiatwise relationAby said members, means for receiving the attened bag top and folding it into a plurality of transverse folds, and means for securing the closed bag top to the bag body to prevent accidental opening thereof.

32. In a packaging machine, a conveyer for advancing a filled openbag along a predetermined path, plate elements insertable into the open bag mouth, spring means for normally retainingsaid plate elements in spaced relation,

means for engaging the end walls of the bag tive bag top walls before the latter are pressedinto flatwise relation by said members.

33. In a bag closing machine, a.conveyer for advancing a filled open bag along a predetermined path, plate elernents insertable into the open bag mouthl whereby they may engage the side walls of the bag top, yield'able means normally retaining said plate elements in spaced relation, means for engaging the end walls of the bagY top and intucking them between said plate elements and the side walls of the bag top to thereby partially close the bag mouth, cooperating elongated members engaging and pressing the partially folded bagtop walls into atwise relation' against the Vtension of said resilient means, means operating in timed relation to said pressing members for moving said plate,v elements. and intucking ymeans out of engagement with their respective bag top walls before the latter are pressed into atwise relation by said members, means for receiving the flattened bag top and folding it into a plurality of transverse folds, and means for securing the closed bag top to the bag body to prevent accidental opening thereof.

34. In a bag closing machine, means for advancing a lled bag along a. predetermined path without interruption, means for transversely scoring the bag top, folding mechanism comprising complementa! closely spaced members forming therebetween a narrow continuous spiral channel adapted to receive and, without intersurfaces which are to be secured in sealing con- 10 tact adhesive.

THOMAS R. JAMES.