US3620434A - Automatic carton stapling machine - Google Patents

Automatic carton stapling machine Download PDF

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US3620434A
US3620434A US726644A US3620434DA US3620434A US 3620434 A US3620434 A US 3620434A US 726644 A US726644 A US 726644A US 3620434D A US3620434D A US 3620434DA US 3620434 A US3620434 A US 3620434A
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stapling
carton
head
work station
shifting
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Theodore M Marquis
John A Crabb
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Individual
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    • 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
    • B65B51/04Applying separate sealing or securing members, e.g. clips
    • B65B51/05Stapling

Definitions

  • Matthews ABSTRACT A power driven carton feed unit. a carton discharge unit and a thin stapling unit sandwiched therebetween; the carton being power delivered into the stapling unit which delivery triggers the firing of staples into the carton from two upper and two lower stapling heads. said heads being carried on a frame which is then automatically shifted laterally to a secondary position in which staples are again automatically fired from said heads into said carton. The frame remains in said secondary position for the first firing of staples in the next succeeding carton entering the staple unit and automatically returns to its primary position for the automatic second firing of staples into said succeeding carton.
  • PATENTEnunv 16 I97 sum 01 or 11 //v VENTORS: THEODORE M MARQUIS JOHN A.
  • CPA B5 ATTORNEY PATENTEDunv 16 I971 SHEEI 05 [1F 11 7 /500095 M MARQU/s JO/Jl 4.
  • One of the features contributing to this result is the power feeding of the carton into a work station in the stapling unit along a guide path so that all that is required to properly position the canon for the starting of the initial stapling cycle is to halt the feed conveyor when the carton arrives in the work station.
  • upper and lower pairs of stapling heads are rigidly fixed on a horizontally shiftable frame so that these stapling heads are already positioned in readiness for driving one pair of staples downwardly in the top of the carton and another pair of staples upwardly in the bottom of the canon when the carton arrives in the work station. Furthermore. the arrival of the canon in the work station and the halting of the feed conveyor to halt the feed movement of the carton with the latter in said station triggers all four stapling heads causing them to immediately fire staples into the top and bottom of the carton as above mentioned.
  • the stapling head-mounting frame has two positions. a primary stapling position and a secondary stapling position transversely offset from the first. and a separately powered means is provided, when properly triggered. to shin said frame from one of said positions to the other.
  • a typical complete machine cycle on each carton fed thereto includes separate forward and reverse stapling cycles in the first of which said frame starts in one of said positions and in the second of which said frame starts in the other of said positions.
  • the forward stapling cycle is automatically triggered by the halting of the conveyor to halt the carton upon arrival in the work station of the machine, and the completion of that stapling cycle triggers the means for advancing the canon either forward in the work station or out of the work station altogether.
  • the arrival of the new carton in the work station starts a new machine cycle which is just the same as the one above described with the qualification that regardless of the number of forward and reverse stapling cycles.
  • the machine starts with the stapling head mounting frame in the position in which the last previous stapling operation had been performed. and the completion of this initial stapling operation triggers the frameshifting means to return the frame to its other position and its arrival at the latter triggers the stapling heads to perform their second stapling operation of the machine cycle being currently described.
  • the frame then again remains in its last-mentioned position while the carton feeder. triggered into action by the completion of the second stapling operation of the current machine cycle, propels another canon into the work station of the machine thus ejecting the canon which was subjected to the stapling operations of the machine cycle just ended.
  • the stapling heads have adjustable locations on their mounting frame by which the locations in which the staples are driven into a canon delivered to said work station may be varied.
  • the canon feed device is also adjustable so as to vary the precise location of the work station in said machine in which the canon is halted during the stapling cycles of the machine cycle for stapling that carton, and to adapt the feeding means to cartons varying in size.
  • the lower pair of stapling heads provided in the machine are mounted on the shiftable frame carrying these so that the upper faces of these heads are disposed just below the bottom of the canon when the latter is in said work station, and the upper pair of said stapling heads are generally disposed directly above said lower pair of heads with their lower faces just above the top of said carton and the means on the frame for supporting the upper heads is vertically adjustable to accommodate cartons varying in height.
  • the canon feed means includes horizontally adjustable side guides which are adjustable to properly form a guided path for canons varying in width. the machine being adapted to receive canons only of a given width for a given adjustment of said guides.
  • the carton feed means also includes an overhead vertically adjustable shoe which is positioned to guide the top flaps of each carton downwardly as it is propelled into the work position so that these flaps will pass under the upper stapling heads in the machine.
  • the overhead shoe functions without being lifted from a given vertical position.
  • the cartons vary in height as when closing canons over packed with iced products. such as lettuce or carrots.
  • the overhead shoe yieldable responds to engagement by the canon top and supports the upper stapling heads so that the shoe and upper heads are lifted by the canon as the latter is advanced to the work station so as to accommodate the carton in the space beneath the upper stapling heads. This maintains the latter in proper closely spaced relation with the top flaps of the canon so as to facilitate the driving of staples in the top of the canon when said heads are fired.
  • the side guide bars defining the guided canon feed path may be readily reset in various locations to guide the canon to a work station disposing the carton in any desired transverse relation with the stapling heads for the initial stapling cycle.
  • the choice may be made readily as to whether the carton (of any particular size) is to be fed to the carton closing station with the carton disposed lengthwise or broadside with respect to the path of delivery.
  • the invention functions to perform each machine cycle automatically from beginning to end. All that is required to cause it to automatically repeat this machine cycle indefinitely is to keep feeding a series of loaded cartons thereto at a rate which will keep pace with the capacity of the machine to automatically close said cartons.
  • the electronic controls for the canon feed-in conveyor are readily adjustable to vary the point in the stapling unit at which the carton is halted in advancing it to what has been referred to above as "the work station.”
  • the transverse vertical plane in the machine in which staples are driven from all the heads may, in the first stapling cycle. be considerably closer to the front end (or side) of the carton than it is to the rear end (or side) of the carton.
  • the electronic feed-in controls are further adjustable to introduce into each machine cycle the automatic actuation of the stapling heads on a single canon during intervals between successive advances of the latter by the feed-in conveyor in which intervals said carton is halted respectively in a series of progressively advanced positions in the work station of the machine.
  • This faculty permits the invention to be readily adapted. by a few simple adjustments, to automatically function rapidly and precisely during each machine cycle to drive three or four rows of four staples in each row, both in the top and in the bottom of the carton. These rows are parallel and distributed. in the direction the carton is fed through the stapling unit, over the top and bottom faces of the canon.
  • the versatility of the invention also extends to the rapid and precise performance of relatively simple stapling functions. For instance, the mere throwing of a manual switch temporarily disconnects the means which horizontally shifts the stapling heads. thereby converting the machine, with suitable adjustments of the feed-in conveyor, for automatically driving two staples near each end of a carton, both in the top and bottom thereof. on opposite sides of the longitudinal center line (where the side flaps meet) while this canon is fed longitudinally (lengthwise) through the machine, with momentary pauses for the stapling cycles.
  • FIG. I is a plan view of a preferred embodiment of the invention.
  • FIG. 2 is a side elevational view of Fig. 1.
  • FIG. 3 is a front elevational view of FIG. I.
  • FIG. 4 is a longitudinal section view taken on the line 4-4 of FIG. 3.
  • FIG. 5 is a transverse sectional view taken on the line 5-5 of FIG. 4 with the carton shown positioned in a given work station in the stapling unit of the machine with the head frame shifted to the right into what is referred to hereinafter as its primary stapling position.
  • FIG. 6 is a view similar to FIG. 5 with the machine adjusted to handle a carton fed broadside through the machine and with the stapling head mounting frame shown shifted to the left into what is referred to herein as the secondary stapling position of said frame.
  • FIG. 7 is a wiring diagram illustrating the functional electronic elements of the invention with their interconnecting circuits. as these appear at the start or end of a multiple work station machine cycle.
  • FIG. 8 is an enlarged elevational view of the feed-in conveyor switch control cam of the invention as it appears at the conclusion or start of a multiwork-station machine cycle.
  • FIG. 9 is an end view of FIG. 8.
  • FIG. I! is an enlarged detailed fragmentary sectional view of the No. 2 switch actuating pin of said control cam.
  • FIG. ll is a perspective view of the vertically yieldable stapler head supporting canon shoe of the invention.
  • FIG. I2 is an enlarged sectional detail taken on the line I2--I2ofFIG. ll.
  • FIG. I3 is a detailed view of the vertically telescopic connection between the horizontal upper head support bars and the vertical end bars of the head-shifting frame.
  • FIGS. 14 to 22 illustrate various patterns of staple arrangements optional in closing cartons with the invention.
  • FIG. 23 is an enlarged detail of the adjustable crank and pitman mechanism by which the head-supporting frame of the invention is shifted between its primary and secondary stapling positions.
  • FIGS. 24-26 inclusive are vertical detail sectional views taken respectively on lines 24-44, 25-25 and 26-26. of FIG. 23.
  • an automatic carton stapling machine 25 including a power driven canon feed unit 26, a canon discharge unit 27, and a thin stapling unit 28 sandwiched therebetween. These units are secured to and supponed on a sheet metal base 29 having four vertically adjustable feet 30.
  • the feed-in unit 26 has box formed sheet metal sidewalls sidewalls 31 which are connected by a box-formed sheet metal spacer 32. Supported within unit 26 on sidewalls 3] thereof is an idle roller conveyor 33 having an open well 34 in the middle thereof. Mounted on suitable studs supported on and extending inwardly from sidewalls 31 are idle sprockets 35. 40 and 41 and chain guide plates 42 having rounded rear ends. Mounted on inner faces of sidewalls 31 is a shaft 43 carrying sprockets 44. Also joumaled in suitable bearings provided on sidewalls 31 is a conveyor drive shaft 45 on which is fixed a pair of large diameter drive sprockets 46.
  • the sprockets and chain guide plates above described are arranged in duplicate in two groups in parallel vertical planes disposed just outside the idle roller conveyor 33, and endless chains 47 are trained about these two sprocket guide plate groups as shown in FIG. 4 to form an infeed canon conveyor 48.
  • the idle sprockets M are venically adjustable by adjusting mechanisms 49 to keep said chains 47 tight.
  • the chain guide plates 42 have slots 55 penetrated by bolts 56 which secure said plates to studs mounted on inner faces of sidewalls 31 so as to permit horizontal adjustment of plates 42. for a reason to be pointed out hereinafter.
  • Fixed at their opposite ends to corresponding points in endless chains 47 and equally spaced in opposite directions along said chains from each other are carton propelling bars 57 and 58.
  • Also fixed on shaft 45 are sprockets 59 and 60 which are progressively smaller in pitch diameter than the sprockets 46.
  • a geared drive motor 61 having a drive pinion 62 which is connected by an endless chain 63 to driven sprocket 59 on shaft 45, this chain being kept taut by an idle sprocket 64.
  • indexing switch 65 Mounted centrally on the idle roller conveyor 33 in the well 34 thereof is an indexing switch 65. the functional significance of which is illustrated in FIG. 7. This switch is positioned relative to conveyor 33 so as to be depressed by a canon C when the latter is delivered onto conveyor 33 so as to override said switch.
  • a plate is fixed to the outer face of one of the metal sidewalls 31 of carton feed unit 26.
  • this plate having a bearing 7 I provided thereon and a pair of studs 72 extending horizontally outwardly from said plate some distance below said bearing.
  • Journaling in said bearing is a shaft 73 having a sprocket 74 fixed on its inner end which is driven by an endless chain 75 which is trained about this sprocket and about sprocket 60 (see FIG. 4).
  • Fixed on the outwardly extending portion of shaft 73 is a disc 76 having a hub 77 on which a switch actuating cam disc 78 is freely rotatably mounted.
  • the disc 78 is provided with a pair of armate slots 69 near the periphery thereof, this disc also having holes 80 formed therein at diametrically opposite points and lying relatively close to the hub 77.
  • Outwardly extending pins are mounted on the disc 78 at circumferentially spaced points from the holes 80.
  • Fixed on disc 76 at diametrically opposite points therein and extending horizontally through holes 80 are pins 86. Extremities of pins 85 and 86 are grooved to retain loops provided at ends of tension springs 86 which are looped around end portions of these pins so that rotation of disc 76 by the rotation of shaft 73 is yieldably transmitted through coil springs 87 to the switch control cam disc 78. This rotation of shaft 73 is in the direction of arrow 88.
  • the cam disc 78 is provided with switch actuating pegs 89 and 90, the first of these pegs being referred to as the short peg and the latter as the long peg. These pegs are mounted in one of the arcuate slots 79 of the disc 78 as clearly shown in detail FIG. I0, which illustrates characteristics held in common by the pegs 89 and 90 as well as those characteristics which are peculiar to the long peg 90. As shown in FIG. 10, each of these pegs has a cylindrical butt end portion 91, which is larger in diameter than the radial width of one of the slots 79, and a threaded stem 92 which is formed coaxially from said butt end portion with an outside diameter fitting within said slot.
  • Peg 89 has only one sleeve 93 and one nut 94 as it is a short peg, while peg 90 has a stem which is long enough to receive two sleeves 93 and two nuts 94 as clearly shown in FIGS. 9 and I0.
  • Pegs 89 and 90 are adjustable circumferentially on the cam disc 78 to any desired locations within the limits of arcuate slots 79 by merely tightening up on the nuts 94 to clamp the areas of the disc 78 bordering said slots which are located between the butt end portions 91 and the adjacent sleeves 93 of these pegs.
  • a lug I Fixed on the outer ends of studs 72 is a rectangular plate 95 which has welded thereto. near the right-hand end thereof, a lug I having a bolt I01 on which one end of a coil spring I02 is hooked. The opposite end of this spring is hooked into a hole formed in a downwardly extending end of a lever I03 which pivotally fulcrums on a stud I04 which extends inwardly from plate 95.
  • Lever I03 is rotatably biased about stud I04 by coil spring 102 so as to engage an adjacent stub 72 whereby the upper end of lever 103 extends upwardly into the circular path followed by butt end portions 9! of pegs 89 and 90 as these pegs are caused to travel past the upper end of said lever by the rotation of cam disc 78.
  • microswitches I05 and I06 are mounted side by side in parallel relationship with their actuating levers angled upwardly so that the rollers I07 and I08 of said switches are disposed concentrically and in the path taken by the sleeves 93 of the pegs 89 and 90 on switch control cam disc 78.
  • the roller I07 of switch I05 is located to be engaged by each of the pegs 89 and 90 when one of these passes said roller while the roller I08 of switch I06 is positioned to be engaged and actuated only by long peg 90.
  • the carton discharge unit 27 (FIG. 4) includes box formed sheet metal sidewalls I09 which are joined together at the back end of the machine by box-formed sheet metal spacer IIO.
  • the sidewalls 109 are also joined by an angle iron I15 at the same level as the top of spacer I10 and a counterplate I 16 with vertical end walls 117 rests on said spacer and angle iron.
  • This counterplate lies at the same level as the upper cartonsupporting surfaces of the conveyor 33 and the feed unit 26 has a delivery plate II8 at the delivery end of said conveyor which is on the same level as said counter plate.
  • carton feed unit 26 and discharge unit 27 provide means for supporting guide bars I 19 for horizontal adjustment towards and away from each other independently so as to make said guide path of any desired width and position the center of this guide path at various transverse locations.
  • the guide bar supporting means comprise horizontal sleeves embodied in the sheet metal sidewalls 31 and 109 of said units for slideably receiving a series of parallel round bars I21 which are united with said guide bars (there being two of such bars in each sidewall 31 and one of these in each sidewall I09 and then providing set screws I22 for adjustably securing said bars in said sleeves.
  • the bars I19 extend the full length of the machine 25 and guide each carton C from the moment it is fed into the front of said machine until its discharge from the discharge unit 27.
  • the stapling unit 28 includes a box formed sheet metal wall I23 including a front plate I24. a backplate which are reinforced at their outer edges by vertical angle irons I26 and joined together at top and bottom by narrow spacer plates I27.
  • the lateral faces of wall I23 are occupied mainly by screen windows I30 mounted between the spacer plates 127.
  • the wall I23 has a central passageway formed by matching openings I31 and I32 formed respectively in plates I24 and I25.
  • Horizontally shiftably mounted within the hollow wall I23 is a rectangular frame I33 which carries the stapling heads of the invention horizontally between primary and secondary stapling positions for successive stapling cycles.
  • the rectangular frame 133 is made up of a pair of rectangular frame plates I34 each of which has a downwardly extending arm I35 at the lower right-hand corner thereof as shown in FIGS. 5 and 6. these plates being secured together to opposite faces of bearing blocks 136 which have aligned cylindrical bores which slideably receive a shaft I37 opposite ends of which are fixed to mid points of crossbars I38. the ends of which are secured to wall plates I24 and 125. Opposite upper comers of the rectangular frame plates I34 are provided with slide bearing plates I39 which slideably bear against blocks which are fixed to the inner faces of wall plates I24 and 125 opposite said bearing plates.
  • stapling heads I47 and I48 Secured by clamps I45 to bottom crossbars I46 ot' rectangular frame I33, are two stapling heads I47 and I48 which are mounted in transverse alignment. with their upturned faces (from which staples are driven) located just below the plane of the bottom of a carton C when the latter is propelled by the infeed carton conveyor 48 into and through the stapling unit 28.
  • These stapling heads are supplied with compressed air through an electronically controlled valve V-I from which compressed air is delivered through coiled plastic tubes I49 to said stapling heads.
  • the compressed air is delivered from valve V-I to tubes I49 through pipes mounted within vertical corner spaces and top corner spaces within hollow wall I23. This air is supplied to valve V-I from a suitable air compressor (not shown).
  • head shift motor 152 (FIG. 4) which provides within itself a geared connection to a shaft 153 which extends horizontally through suitable apertures in wall plates 124 and 125 and a bearing 154 (FIG. 23) mounted on wall plate I24. said shaft having fixed on its extending end a drive sprocket 155.
  • Fixed to the inner face of front wall plate 124 is a bearing in which a crankshaft 16!
  • crankshaft 161 Mounted on the inner end of crankshaft 161 is a crank arm 165 having a bayonet slot 166 provided radially in its outer face in which a crankpin I67 is adjustably mounted so as to vary the radius at which the axis of said crankpin is spaced from the rotational axis of said crankshaft.
  • a pitman 168 has one end thereof pivotally connected to the crankpin I67 and the opposite end thereof is pivotally connected to lower ends of arms 135 which extend downwardly from reciprocating frame plates I34.
  • rotation of the crankshafl 161 causes a reciprocation horizontally of the rectangular frame I33 on shaft 137.
  • the sprockets I55 and 162 have the same number of teeth so that the crankshaft I6] and drive shaft I53 rotate at the same speed.
  • Mounted on the drive shaft 153 is a cam 169 having two lobes I70 disposed l80 apart.
  • Mounted on the inner face of front wall plate 124 is a head shift motor halting switch I75, the actuating roller 176 of which extends into the path of lobes 170 of cam I69 so that said switch is actuated with each one-half rotation of drive shaft 153.
  • the cam 169 is oriented with respect to the position of crank arm I65 on crankshaft 16l so that each time switch 175 is actuated to halt the head shift motor 152.
  • crank arm 165 is in one of the two positions in which it is shown in FIGS. and 6. It is thus clear that each time head shift motor 152 is energized, crank arm 165 is in one of said positions, and the motor is only allowed to run until said crank arm has been rotated 180 to the other of said positions where said motor is halted by the actuation of switch I75 by one of the cam lobes I70.
  • Head shift motor 152 is provided with an electric brake which is automatically released when said motor is energized and applied when said motor is deenergized.
  • the halting of the motor when the latter is deenergized is arranged to be delayed just long enough for the lobe 170, which actuated the switch I75 to accomplish the deenergizing of the motor, to rotate out of engagement with the switch roller I76.
  • brackets 177 Secured to the front face of front wall plate 124 on opposite sides of window opening 13] therein, are pairs of horizontal brackets 177 (FIGS. 1 to 4) which are in vertically aligned relation, these brackets supporting parallel threaded shafts 178, such shafts supporting a heavy bar 179. opposite ends of which have holes which fit around said shafts, by pairs of heavy nuts 18] which are screwed on said shafts from above and below said bar so as to lock the latter in a horizontal position, disposed at any desired level.
  • Mounted on bar 179 is a mechanism I82 for automatically adjusting an upper pair of stapling heads I83 and I84 in proper superimposed relation with cartons C fed into the machine 25 where said cartons vary substantially in height.
  • the mechanism I82 is designed in the illustrated embodiment of the invention to accommodate variations of as much as two inches in the height of these cartons.
  • This mechanism includes heavy plate lugs 185 which are welded to upper and lower faces of bar 179 to extend upwardly and downwardly therefrom in a pair of parallel planes, these lugs having bolted thereto bifurcated rear ends of heavy support plates or struts 190 which extend horizontally forwardly from bar I79 with the plates I90 disposed in vertical planes.
  • Disposed between upper ends of said levers and pivotally mounted thereon is the front end of an inverted sheet metal channel member 193 having side flanges I94 which, at their rear ends, are provided with slide bearings I95.
  • Horizontal adjustable links 196a lie between upper portions of plates I90 and side flanges I94. said links having their forward ends pivotally connected to said flanges and their rear ends pivotally connected to lugs I85.
  • a second inverted sheet metal channel member 196 having side flanges I97 lies with its front end located between vertical levers I92 just below shaft 191 and is pivotally connected to said levers.
  • Rear end portions of side flanges 197 are provided with bearings 198.
  • slide flanges 197 are provided with a transverse shaft 199 which extends laterally substantial distances from said channel member 196.
  • a light sheet metal canon-contacting shoe 200 Disposed beneath the lower ends of vertical levers I92 and inclined downwardly from its front end towards its rear end is a light sheet metal canon-contacting shoe 200 having an upwardly turned front flange 205.
  • side flanges 206 and a rear flange 207 Disposed beneath the lower ends of vertical levers I92 and inclined downwardly from its front end towards its rear end.
  • FIG. I The bottom face of shoe 200 is flat excepting that a shallow V-shaped recess 208 is formed upwardly therein adjacent the rear edge of said show.
  • the outline of this recess is shown in broken lines in FIG. I and a transverse proflle thereof is shown in FIGS. 3 and I2.
  • a pair of lugs 209 are fixed on shoe 200 between lower end portions of levers 192. These lugs being pivotally mounted on a shaft 210 which connects lower ends of said levers.
  • Upper ends of a pair of plate links 211 are pivotally mounted on outer ends of shaft I99 and lower ends of these links are pivotally connected to side flanges 206 of shoe 200.
  • the frame plates 223 are thus supported on the inverted U- shaped plate yokes 220 which in turn are supported on slide shafts 2I2 and 213. These shafts are transversely slideable in slide bearings I95 and 198 so that frame plates 223 are all times supported through shafts 2I2 and 2l3 by the mechanism 182.
  • This support is normally transmitted through the inverted sheet metal channel member 293 to the heavy transverse bar 179 because said member rests on said bar (FIG. 4).
  • the upper stapling heads I83 and I84 are mounted between frame plates 223 in transversely aligned relation and are supported on said plates by clamps 226.
  • the mechanism I82 is so designed that when said stapling heads are so supported.
  • a carton bottom guide bar 227 is secured at its ends to bottom faces of counterplate H6 and delivery plate 118 and fits upwardly between said plates so that the upper edge of said bar is flush with the upper faces of said plates. The function of bar 227 is to support cartons C and smoothly guide these as they travel across the gap between plates I I8 and I I6.
  • the right-hand stapling heads I47 and 183 are turned 180 in their mountings on the reciprocating rectangular frame 133 relative to the lefi-hand stapling heads I48 and I84. Due to the fact that these heads are all aligned with frame I33, that is, the lengthwise central axes of said heads are parallel with that frame and coincide with the central axial plane of said frame, the staples driven from the heads on the right side of machine 25 and those driven from the heads on the left side of said machine are all driven symmetrically with said central axial plane of frame I33.
  • the individual staples lie crosswise of that plane, half on one side and half on the other. Thus, it will be seen that the staples are also individually aligned. (lengthwise, that is) with the direction cartons travel along the conveyor 48. This clearly shown in FIGS. I4 to 22, inclusive, illustrating various patterns in which staples may be driven by the machine 25 in one particular size of carton.
  • the central vertical axial plane of stapling head supporting frame 133 may be designated as the staple firing plane S and this is indicated by the line s-S appearing in FIGS. I and 4.
  • switch control cam disc 78 is rotated in the direction of the arrow 88 while the feed-in conveyor 48 is operating.
  • the operation of this conveyor starts with the energizing of the motor 61 and it halts with the deenergizing of this motor by the actuation of switch I05 when one of the pegs 89 or 90 is brought by the rotation of the disc 78 into engagement with the roller I07 of this switch.
  • the drive ratio between the disc 78 and the chain 47 of the infeed carton conveyor 48 is such that this chain travels one-half its length during each revolution of the disc 78.
  • FIG. 4 is an exception to the general rule above stated as to the various elements of the machine being shown in the drawings as at the end of a given machine cycle. Instead, FIG.
  • FIG. 4 shows the carton C in the position in which it is halted alter the motor M has been energized at the beginning of a machine cycle and chain 47 has travelled slightly less than one-half its length and then been halted by the engagement of switch roller I08 by peg 90.
  • the motor 61 has a magnetic brake which rapidly halts the travel of the conveyor 48 when said motor is thus deenergized.
  • Carton C thus halts when the conveyor stops in the position in which this carton is shown by broken lines in FIG. 4.
  • the canon is here disposed in the initial work station for this carton in this machine cycle.
  • both motors 61 and I52 are deenergized.
  • the index switch 65 which is positioned in the well 34 of the idle roller conveyor 33 is depressed by a carton delivered onto said conveyor, and this initiates an entire machine cycle of the machine 25 which is automatic from that point on until the cycle is concluded by the completing of a series of stapling operations in each of which staples are driven by the respective stapling heads of the machine downwardly and upwardly into the top and bottom of the carton and the same is thus completely closed ready to be discharged from the machine.
  • the electrical system of the machine 25 includes relays R-l, R2, R-3 and 124. Of these relays, R-3 and R-4 are equipped with timer units R-JT and R-4T respectively. Each of these timer units is, in effect, a relay by itself and is actuated after a certain delay period which may be varied by rotation of a little thumb roller provided on the unit so that the switch or switches provided therein close or open to perform auxiliary functions in connection with the actuation of the relay with which the timer unit is associated.
  • the relays used in this machine are of the type NT put out by the Allen-Bradley Co. of Milwaukee, Wisc.
  • the feed-in motor 6] is halted by peg 89 passing over roller I07 of switch I05 so as to close this switch and energize relays R-2 and R-3. As indicated in FIG. 7 this energizing of these relays is of the left-half of the coils thereof, the energizing of relay R-J being through normally closed switch "58.
  • the energizing of relay R-2 breaks the circuit of the feed-in motor 6! thus causing this to halt and closes points in this relay in the circuit of the head shift motor I52 but prevents this starting by the points in this circuit in relay R-3 being open.
  • the timer unit R3T of relay R-3 closes with a delayed action permitting the feed-in motor 61 to come to a complete halt with the carton C in its first work station before functioning to actuate relay R-4 which operates through the timer unit R-4T to momentarily open compressed air valve V-l and cause all of the stapling heads to tire staples into carton C.
  • the timer unit R-4T after a brief delay allowing the firing of said stapling heads, opens the circuit to valve V-l and closes an auxiliary circuit which energizes the right-half of the coil in relay R-3 thus closing the points in said relay and starting the head shift motor I52.
  • the patterns of staples fired in these two initial stapling operations are transversely offset from and overlap each other so as to appear as shown in these two views, in one of which the carton is disposed broadside and in the other of which the carton is disposed lengthwise in the machine.
  • relay R-Z When relay R-Z functioned to turn off head shift motor 152 it closed the points therein in the circuit of the feed-in motor 6] but the latter does not start because of the points in said circuit in relay R-3 being open.
  • the points of this unit are reversed from the position in which they are shown in FIG. 7 so as to send an impulse to energize the right-half of the coil in relay R-3 thus closing the points in this relay in the feed-in motor circuit and starting the latter.
  • the disc 78 is allowed to rotate only a relatively short distance before the peg 90 engages rollers [07 and 108 of switches 105 and 106 so as to close said switches momentarily. This causes a repetition of the functions which followed the momentary closing of switch I05 at the start of this machine cycle with the result that all stapling heads are caused to fire staples into the carton C with the latter in its new work station and with the stapling heads in their secondary firing position. At the same time, the momentary closing of switch 106 kicks out relay R-l which is the signal of the end of the machine cycle.
  • switch 106 is what ultimately causes the halting of the entire machine at the end of the machine cycle.
  • the closing of switch I05 momentarily by the engagement of long peg 90 with switch roller ")7 starts a repetition of the entire chain of automatic func tions described hereinabove as following the first momentary closing of switch 105 with the result that the stapling heads are triggered to perform a stapling operation on the carton with the stapling heads in their secondary transverse position in the machine and with the carton in its second work station, following which, the head shift motor 152 is automatically energized to return the stapling heads to their primary or initial firing position and then automatically causes these heads to fire staples into the canon when said heads reach said position.
  • index switch 65 Obviously whenever a continuous supply of cartons is provided so that during the performance of each machine cycle, another carton is rolled onto conveyor 33 so as to depress index switch 65, there is then no halt of the machine between subsequent machine cycles as the completion of one machine cycle occurs with index switch 65 depressed which causes the immediate initiation of the following machine cycle.
  • a switch 230 is provided in the line connecting relay R-2 to head shift motor I52. This switch, when thrown, breaks this line and connects the relay point normally leading to motor 152 to the relay point normally leading to relay R-l. This is a manually operated switch and when it is thrown from the position in which it is shown in full lines in FIG.
  • the head shih motor I52 does not function at all and the stapling heads of the machine remain wherever they are clamped in place in the machine throughout the entire machine cycle.
  • the machine cycle is also entirely automatic, and the carton is progressively advanced from one work station to another and the stapling heads caused to automatically perform stapling operations with the canon in each of these work stations. Only one stapling operation is however performed while the canon is in each position in the work station and the conclusion of this stapling cycle triggers the feed-in motor to advance the carton to the next position and the arrival of the canon in this position triggers the stapling heads to again perform a stapling operation with the carton in that position.
  • the disc 78 is provided with only one peg, this being a long peg 90. This placed so as to position the carton to be stapled as shown in FIG. 17 where the carton is advanced broadside to bring the meeting line of the side flaps of the carton into coincidence with the transverse axis of the stapling heads.
  • the stapling heads will remain in their secondary trans verse positions at the close of the first machine operation.
  • the initial stapling cycle of the next following machine cycle will occur with the heads in said secondary positions, and the heads will then be automatically returned to their primary transverse positions for performance of their second stapling operation in said second machine cycle.
  • An automatic carton-stapling machine comprising:
  • stapling head means supported in said work station for driving staples into said carton in a predetermined pattern spaced transversely across said carton;
  • stapling head-shifting means supporting said head means and operable to shift the same transversely of said path to staple in first and second transversely offset stapling positions;
  • sequence control means coupled to the above-recited means and including a. means for triggering said head means and shifting means to perform a forward stapling cycle consisting of stapling in the first position, shifting to the second position and stapling in the second position, while said carton is held stationary in said work station,
  • An automatic carton-stapling machine comprising:
  • stapling head means supported in said work station for driving staples into said carton in a predetermined pattern spaced transversely across one side of said carton;
  • stapling head-shifting means supporting said head means and operable to shift the same transversely of said path to staple in first and second transversely offset stapling positions;
  • sequence control means coupled to the above-recited means and including a. means for triggering said head means and shifting means to perform a forward stapling cycle consisting of stapling in the first position, shifting to the second position and stapling in the second position, while said carton is held stationary in said work station,
  • d. means for triggering performance of a reverse stapling cycle following advance after performance of a forward stapling cycle
  • e. means for triggering performance of a forward stapling cycle following advance after performance of a reverse stapling cycle.
  • An automatic carton-stapling machine comprising:
  • a stationary housing defining a guide path leading to a work station in said machine
  • stapling head means supported in said work station and operable to drive staples into a side of said carton lying substantially in a plane parallel to said guide path;
  • stapling head-positioning means including:
  • a strut member on said housing extending from said work station substantially in a direction opposite the direction of travel of said carton
  • a canon contact member positioned at an angle to the guide path for sliding contact with the forward edge of said carton side and having one end pivotally mounted on the end of said strut member opposite its mounting on the housing and having its other end connected to said stapling head supporting means to guide said stapling head means into sliding contact with said carton side during advance of the carton into said work station.
  • said stapling head means includes a head unit adapted to drive two staples at a time, and said shifting means shifts said unit through a distance whereby the pattern of staples driven in the first stapling position overlaps one side of the pattern of staples driven in the second stapling position.
  • said head unit includes first and second stapling devices; and said shifiing means includes a frame supporting said stapling devices and adapted to shift the same together between said first and second stapling positions, and means on said frame for adjusting the relative positions of said devices thereon to vary said stapling pattern and the degree of overlap of the patterns for said first and second stapling positions.
  • said shifting means includes a shift power source and a drive coupling between said power source and said frame, said coupling including means for varying the distance through which said frame is shifted to further vary the degree of overlap of said staple patterns.
  • sequence control means includes:
  • variable means responsive to movement of said advancing means for setting the distance through which said carton is advanced following each of said cycles.
  • sequence control means further includes means coupled to said advancing means and operative upon completion of the first stapling cycle performed upon a carton following its arrival in said work station, for halting said advancing means after advance of said canon through a distance less than its width in the direction of said guide path and triggering performance of the next stapling cycle, whereby a plurality of stapling cycles are perfonned on said carton.
  • said stapling head means comprises first and second head units on respectively opposite sides of said guide path; and said shifting means comprises a common frame supporting said first and second head units and adapted to shift the same together between first and second stapling positions.
  • shifting means shifts said frame a predetermined distance whereby the pattern of staples driven in the first stapling position overlaps the pattern of staples driven in the second position on said opposite sides, respectively.
  • sensing means sensitive to the position of a carton side into which staples are to be driven, said sensing means having a contact member positioned to be contacted by said carton side as the carton enters the work station, said contact member being connected to said stapling head means to guide the same into sliding contact with said carton side during advance of said carton into said work station.
  • the machine defined in claim [4 further including a housing defining said work station, a sensing means support frame mounted on said housing and extending substantially in the direction opposite the direction of travel of said carton, said contact member having one end pivotally mounted on the end of said support frame opposite its mounting on the housing and being positioned to contact the top of said carton, the other end of said contact member being connected to said stapling head means.
  • stapling head means adapted to drive two staples at a time spaced in a predetermined pattern transversely of said guide path across a side of said carton
  • stapling head-shitting means supporting said head means and operable to shift the same transversely of said guide path to staple said pattern in first and second transversely offset stapling positions in which the pattern of staples for the first position overlaps one side of the pattern for the second position
  • means for controlling stapling and advancement of said carton and shifting of said stapling head means to staple said carton in both said first and second position while said carton is held stationary between successive advancements thereof.
  • said stapling head means includes first and second stapling devices; and said shifting means includes a frame supporting said stapling devices and adapted to shift the same together between said first and second stapling positions, and means on said frame for adjusting the relative positions of said devices thereon to vary said stapling pattern and the degree of overlap of the patterns for said first and second stapling positions.
  • said stapling head means includes separate sets of said first and second stapling devices. said sets being located on opposite sides of said guide path to staple opposite sides of said carton;
  • said shifting means includes a common frame supporting said sets of stapling devices and adapted to shift the same together between said first and second stapling positions.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Making Paper Articles (AREA)
US726644A 1968-04-30 1968-04-30 Automatic carton stapling machine Expired - Lifetime US3620434A (en)

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US (1) US3620434A (fr)
DE (1) DE1921813A1 (fr)
ES (1) ES366590A1 (fr)
FR (1) FR2007307A1 (fr)
GB (1) GB1262371A (fr)
NL (1) NL6906698A (fr)

Cited By (5)

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Publication number Priority date Publication date Assignee Title
US4113610A (en) * 1976-10-28 1978-09-12 Mueller Loren H Agricultural sorting and packing apparatus
US20060168911A1 (en) * 2005-02-03 2006-08-03 Willamette Valley Company System and method for installing a protective covering onto a stack of work pieces
CN107214998A (zh) * 2017-07-27 2017-09-29 寻乌县天源包装有限公司 一种双片式彩箱自动钉箱机及其控制方法
CN107775997A (zh) * 2017-11-21 2018-03-09 江门市蓬江区进源包装实业有限公司 一种纸箱自动打钉机
CN114393879A (zh) * 2022-01-28 2022-04-26 连云港麦达包装有限公司 一种瓦楞纸包装箱生产用封订装置及其方法

Families Citing this family (3)

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Publication number Priority date Publication date Assignee Title
GB2236974A (en) * 1989-10-10 1991-04-24 Lin Chung Cheng Power operated stapling machine
CN110949787B (zh) * 2019-12-09 2021-12-24 滨州职业学院 一种用于服装制造打包用热熔封口机
CN114179440B (zh) * 2021-12-01 2023-09-26 重庆皖渝纸制品有限公司 一种用于纸箱加工的钉箱机

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Publication number Priority date Publication date Assignee Title
US3126685A (en) * 1964-03-31 Machine for simultaneously closing top
US3158869A (en) * 1962-03-14 1964-12-01 Robertshaw Controls Co Carton sealing apparatus
US3207403A (en) * 1963-05-06 1965-09-21 Clarence F Stoddard Pallet making machine
US3267640A (en) * 1963-05-28 1966-08-23 Internat Staple & Machine Comp Apparatus for automatically closing and sealing carton flaps
US3282018A (en) * 1961-03-10 1966-11-01 Newnham Ind Pty Ltd Apparatus for applying adhesive tape to cartons

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3126685A (en) * 1964-03-31 Machine for simultaneously closing top
US3282018A (en) * 1961-03-10 1966-11-01 Newnham Ind Pty Ltd Apparatus for applying adhesive tape to cartons
US3158869A (en) * 1962-03-14 1964-12-01 Robertshaw Controls Co Carton sealing apparatus
US3207403A (en) * 1963-05-06 1965-09-21 Clarence F Stoddard Pallet making machine
US3267640A (en) * 1963-05-28 1966-08-23 Internat Staple & Machine Comp Apparatus for automatically closing and sealing carton flaps

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4113610A (en) * 1976-10-28 1978-09-12 Mueller Loren H Agricultural sorting and packing apparatus
US20060168911A1 (en) * 2005-02-03 2006-08-03 Willamette Valley Company System and method for installing a protective covering onto a stack of work pieces
US20070051071A1 (en) * 2005-02-03 2007-03-08 Willamette Valley Company System and method for installing a protective covering onto a stack of work pieces
CN107214998A (zh) * 2017-07-27 2017-09-29 寻乌县天源包装有限公司 一种双片式彩箱自动钉箱机及其控制方法
CN107214998B (zh) * 2017-07-27 2023-05-23 寻乌县天源包装有限公司 一种双片式彩箱自动钉箱机及其控制方法
CN107775997A (zh) * 2017-11-21 2018-03-09 江门市蓬江区进源包装实业有限公司 一种纸箱自动打钉机
CN114393879A (zh) * 2022-01-28 2022-04-26 连云港麦达包装有限公司 一种瓦楞纸包装箱生产用封订装置及其方法

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Publication number Publication date
ES366590A1 (es) 1971-03-16
FR2007307A1 (fr) 1970-01-02
DE1921813A1 (de) 1969-12-11
NL6906698A (fr) 1969-11-03
GB1262371A (en) 1972-02-02

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