US1976128A - Pneumatic caser - Google Patents

Pneumatic caser Download PDF

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US1976128A
US1976128A US453215A US45321530A US1976128A US 1976128 A US1976128 A US 1976128A US 453215 A US453215 A US 453215A US 45321530 A US45321530 A US 45321530A US 1976128 A US1976128 A US 1976128A
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cans
rack
valve
machine
air
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George L Hurst
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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
    • B65B5/00Packaging individual articles in containers or receptacles, e.g. bags, sacks, boxes, cartons, cans, jars
    • B65B5/06Packaging groups of articles, the groups being treated as single articles

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  • This invention relates to machines or casers for vfilling boxes or fiber cases with cans of commodities preparatory to closing and shipping the boxes or cases, and the objects of the invention are to provide improvements in this class of machine whereby the operations of the machine are automatically carried out, also whereby compressed air is used as the motive force and thus a gentle starting motion is given the reciprocating parts and the machine can stop at any point of its cycle without danger of injury in case the cans get stuck, also such a machine which will eiectually separatethe proper quantity of cans for each case and which will eject several layers l5 of cans to completely ll the case automatically upon tripping of a trigger by the case presented to the machine by an operative.
  • Fig. 1 is a front elevation of the machine as seen from the operatives position.
  • Fig. 2 is a plan view of the machine with a 26 portion of the can feeding tracks broken away.
  • Fig. 3 is an elevation of the side of the machine opposite the can feeding tracks.
  • Fig. 4 is an enlarged plan View of a portion of the machine showing the automatic air valve for actuation by the incoming cans and tripping mechanism.
  • Fig. 5 is'an elevation of the valve and tripping mechanism of Fig. 4.
  • Fig. 6 is a cross section of Fig. 5 as seen from the line 6-6 thereof.
  • my machine comprises a frame supporting at convenient height a horizontally extending can-holding rack adapted to hold the desired number of cans for a box or case and of a size so that the open end of the case may be slipped horizontally over the outer end of the rack while held in the hands of an operative and then pushed further over the rack to thereby trip an air valve which operates an air plunger to eject the cans into the case and push it from the rack back into the hands of the operative who deposits the lled case on some adjacent conveyor for removal.
  • the frame of the machine is shown at 1, the can-holding rack 2, horizontally supported air cylinder 3 containing a double acting piston 4 having a piston rod 5 connected at its outer end to the central one of three transversely disposed pusher bars 6 which are secured to the forward free ends of a rectangular frame or pusher carriage having six rearwardly extending side members 7 connected together at their rear ends by plates 8.
  • Supported by plates 8 are shafts 9 which extend across above and below the air cylinder and carry grooved rollers 10 60 rollable on the cylinder so that the rear end of the carriage is guided for horizontal reciprocation upon movement of the air piston.
  • the can-holding rack is a substantially rectangular sheet metal box Awith corners removed as at 2 and of a size to hold a number of cans 70 to go Within the box or case, and is provided with three shelves 12 supporting the cans for free rolling to position 13 shown in Fig. 1 from three superimposed tracks 14 feeding the can by gravity through openings in the side of the box.
  • 'Iracks 14 receivethe cans from any source such as a conveyor or chute not shown and are formed at their receiving ends as atl to split a layer of rolling cans into several layers for feeding along the tracks by gravity into the machine.
  • a section of each track is cut and pivoted as at 16 to a brace or angle 17 on the side of the rack so as to swing 35 upward to break the continuity of the tracks and the track sections are pivotally linked together as at 18 for simultaneous lifting of their outer ends at certain intervals during the operation of the machine.
  • the track sections are automatically lifted upon return stroke of the pusher bars 6 through means of a counterbalanced link and shaft connection operated by and upon return of the pusher bars, and which mechanism includes a small horizontal shaft 19 rotatably supported on the frame of the machine an arm 20 secured to the shaft pivotally linked at its forward end at 2l to the lowermost track section ,105 and counterweighted at 22 to take part of the weight of the track sections so that they can be lifted with little effort, while on the end of the shaft adjacent the can rack is secured an arm 23 formed in a manner to be struck by the lower- 110 most pusher bar upon its return movement toi the pusher bars, and from this valve the air pipe leads to the-rear end of the air cylinder 3 as at 24' while a line takes off from the incoming air pipe at a point before the valve 25 and is branched as at 26, 26 leading respectively to a reserve air chamber 27 and to the forward end of the air cylinder 3 just in back of the stuffing box 28 for the piston rod.
  • An automatic pressure regulator 29 of conventional construction holds a relatively low pressure in pipes 26, 26 and chamber 27 as this air functions merely as a spring to return the pusher bar carriage after each forward stroke upon exhaust of the power stroke air through valve 25 as later described.
  • Chamber 27 conveniently takes the form of a vertical cylinder closed at both ends and serving as the main post of the machine frame at the rear end of the air cylinder, while a gage 30 on pipe 26 or chamber 27 indicates the properly reduced pressure.
  • the air valve 25 is arranged to trip for different lengths of strokes so as to successively push layers of cans forward in the holding rack 2 and then to eject them with a long stroke into a box or.case pushed over the laterally projecting end of the rack.
  • the valve generally designated 25 is of the piston type with diierent transverse passages or grooves to produce the required results, and is best shown in the enlarged Figs. 4, 5 and 6.
  • the incoming air pressure pipe 24 is indicated with its valve port 30 blocked by piston 31 and air pipe 24' from the power end of air cylinder 3 exhausting through chamber 32 piston port 33, body port 34 and exhaust pipe nipple 35 to atmosphere, so that with valve in this position low pressure air in chamber 27 will of course return pusher carriage to the left so thatia set of cans will be rolled from pivoted track sections into the holding rack.
  • This lever is pivoted at its other end at 37 to a lug on the side of the can-holding rack and pivotally linked at 38 to the end of one arm 39 of a bell crank pivotally supported at 40 on the valve body and having its other end ⁇ 41 flattened and overlying the end 42 of the piston valve which is of wedge form with end rounded to make a good'working contact.
  • lever, link and bell crank form a toggle which is easily operated by the rolling cans, and a stop such as a pin 43 on lever 36 strikes link 38, as indicated in dotted position of the parts, to prevent the toggle straightening beyond the point shown so that a reverse movement of the valve will be able to reset lever 36.
  • Lever 36 when once tripped by the entering cans remains down until later restored atthe long forward stroke of the pusher carriage.
  • valve Upon lever 36 being moved by the layer of cans rolling into the can-holding rack the valve is moved to the left and port 33 is displaced to close the exhaust and a port 44 is aligned with the air pressure port 30 to at once cause air piston 4 to force pusher carriage to the right and move the layer of cans forwardly in the can-holding rack.
  • a swinging latch 45 pivoted to the side of one of the carriage members 7 and projecting through an opening 46 in the lower web of the bar, strikes the upper end 47V of a small crank arm pivoted at 48 to a bracket 49 extending from the valve and the other end of which crank arm is slotted as at 50 and engages a pin 51 on a lug 52 secured to a reduced extension 53 of valve 31 so that the,
  • port 44 is shifted from inlet 30 to outlet 34 so that the carriage at once returns after the short forward stroke and another layer of cans roll into the rack just in back of the first layer which now occupy a forward position in the rack.
  • valve extension 53 projecting to the left of supporting bracket 49, so that upon connecting of port 56 the carriage moves forward a full stroke and the pusher bars eject the cans into the case and the filled case into the hands of the operative while partially supported on a roller 57 mounted on a pair of outwardly extending frame braces 58.
  • valve trip 54 As fiber cases have hinged cover flaps at the forward edges I provide an angular guard member 62 adjacent valve trip 54 so as to turn the flapon that side inward and guide it so that it will operate the trip.
  • the shelves 12 are each given a. slight downward bend at 63 so as to retain the cans in place against rebound when received from the titled track sections, and these shelves ⁇ are formed with scalloped out portions 64 at their forward edges so that the cans in being pushed from the shelves will fall gently to rest upon one another in the forward part of ⁇ the rack and without danger of scraping the labels.
  • the forward -end of the rack is of somewhat 'reduced size 'so as to crowd the cans together and has no shelves. Its bottom 2" is scalloped at the forward edge at to prevent labels ⁇ being scraped as the cans and box are ejected.
  • Small stiifening angles 66 are provided on the side walls and placed in a position so as not to contact with the cans.
  • a machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operatively connected to said ejector, means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions and means tripped by the case for operating said pneumatic cylinder.
  • a machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of.cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operatively connected to said ejector, and means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions, the air for the return stroke being in non-exhausting confinement.
  • a machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operativelyl connected to said ejector, means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions, the air for the return stroke'being in non-exhausting confinement,
  • a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a can pusher carriagev secured to the free end of the piston rod and ar-l ranged in straddling relation to said cylinder, and means supporting said carriage on said cylinder for reciprocation upon movement of said piston.
  • a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a cam pusher carriage secured to the free end of the piston rod and arranged in straddling' relation to said cylinder, means supporting said carriage for reciprocation upon movement of said piston, and a multiple ported air valve on said machine provided with a plurality of tripping devices adapted variously to actuate said power cylinder upon movement of said carriage,
  • a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a cam pusher carriage secured to the free end of the piston rod arranged in straddling relation to said cylinder, means supporting said carriage for reciprocation upon movement of said piston, and a multiple ported air valve on said machine provided with a plurality of tripping devices adapted variously to actuate said power cylinder, one of said trips adapted for actuation by cans fed to the rack and another by a casegplaced upon the same.
  • a can-holding rack adapted to hold a plurality of superimposed rows of cans for ejecting into a case to be filled, plates supporting the cans in layers for sliding therealong, and means for sliding the cans along the plates, the leaving edges of said plates being scalloped to reduce scraping action on the cans.
  • a machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, a pneumatically actuated ejector mounted for reciprocable movement in the rack for ejecting the cans, means arranged and adapted to control the movement of the ejector for giving said ejector short and long strokes whereby a row of cans is moved forward in the rack upon 'a short stroke and ejected upon along stroke.
  • a machine of the character described comprising a can-holding rack adapted to receive and hold a. plurality of -cans for ejecting into a case, a pneumatically actuated ejector mounted 11.
  • a machine of the character described com-v prising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, a pneumatically actuating ejector mounted for reciprocable movement in the rack, means arranged and adapted to control the movement of the ejector for giving said ejector a short and long stroke whereby a row of cans is moved forward in the rack upon a short stroke and ejected upon a long stroke, the long stroke controlling means being in the path of a case to be filled when applied over said rack.
  • the short stroke controlling means being in the path of incoming cans for operation thereby and the long stroke controlling means being in the path of the case to be filled when applied over said rack.
  • a can-holding rack adapted to hold a plurality of superimposed rows of cans, said rack being extended to receive the open end oi? a case to be filled, a. pneumatically actuated ejector mounted for reciplrocable movement in the rack, means arranged and adapted to control the movement of the ejector for causing the ejector to move to eject GEORGE L. HURST.

Description

Oct. 9, 1934.
G, L. I -IURST PNEUMATICI CASER Filed May 17 1930 3 Sheets-Sheet l INVENTOR.
GEORGE L. HQRST ATTORNEYS.
Oct. 9, 1934. G. l.. HURST 1,976,128
PNEUMATIC CASER Filed May 17, 1930 3 Sheets-Sheet 2 INVENTOR. GEORGE l L.. HuHsT ATTORNEYS.
G. L. HURST PNEUMATICI CASER Oct. 9, 1934.
Filed May 17, 1950 3 Sheets-Sheet 3 `1NVENT0R- 61150365 l... HURsT ATTORNEYS.
Patented oct. 9, 1934 1,976,128.- PNEUMATIC cAsER George L. Hurst, San Francisco, Calif. Appiiauon May 1t, 1930, serial No. 453,215
a 13 Claims.
'This invention relates to machines or casers for vfilling boxes or fiber cases with cans of commodities preparatory to closing and shipping the boxes or cases, and the objects of the invention are to provide improvements in this class of machine whereby the operations of the machine are automatically carried out, also whereby compressed air is used as the motive force and thus a gentle starting motion is given the reciprocating parts and the machine can stop at any point of its cycle without danger of injury in case the cans get stuck, also such a machine which will eiectually separatethe proper quantity of cans for each case and which will eject several layers l5 of cans to completely ll the case automatically upon tripping of a trigger by the case presented to the machine by an operative.
Other objects and features of the invention will appear in the following specification and accompanying drawings.
In the drawings:-
Fig. 1 is a front elevation of the machine as seen from the operatives position.
Fig. 2 is a plan view of the machine with a 26 portion of the can feeding tracks broken away.
Fig. 3 is an elevation of the side of the machine opposite the can feeding tracks.
Fig. 4 is an enlarged plan View of a portion of the machine showing the automatic air valve for actuation by the incoming cans and tripping mechanism.
Fig. 5 is'an elevation of the valve and tripping mechanism of Fig. 4.
Fig. 6 is a cross section of Fig. 5 as seen from the line 6-6 thereof.
Briefly described, my machine comprises a frame supporting at convenient height a horizontally extending can-holding rack adapted to hold the desired number of cans for a box or case and of a size so that the open end of the case may be slipped horizontally over the outer end of the rack while held in the hands of an operative and then pushed further over the rack to thereby trip an air valve which operates an air plunger to eject the cans into the case and push it from the rack back into the hands of the operative who deposits the lled case on some adjacent conveyor for removal.
In further detail the frame of the machine is shown at 1, the can-holding rack 2, horizontally supported air cylinder 3 containing a double acting piston 4 having a piston rod 5 connected at its outer end to the central one of three transversely disposed pusher bars 6 which are secured to the forward free ends of a rectangular frame or pusher carriage having six rearwardly extending side members 7 connected together at their rear ends by plates 8. Supported by plates 8 are shafts 9 which extend across above and below the air cylinder and carry grooved rollers 10 60 rollable on the cylinder so that the rear end of the carriage is guided for horizontal reciprocation upon movement of the air piston. a
'Ihe forward ends of horizontal members 7 are vertically spaced and slidably guided by means of short blocks secured to the sides of the canholding rack 2 as indicated at 11 in Fig. 3.
The can-holding rack is a substantially rectangular sheet metal box Awith corners removed as at 2 and of a size to hold a number of cans 70 to go Within the box or case, and is provided with three shelves 12 supporting the cans for free rolling to position 13 shown in Fig. 1 from three superimposed tracks 14 feeding the can by gravity through openings in the side of the box.
'Iracks 14 receivethe cans from any source such as a conveyor or chute not shown and are formed at their receiving ends as atl to split a layer of rolling cans into several layers for feeding along the tracks by gravity into the machine. For a distance corresponding to the Width of the holding rack a section of each track is cut and pivoted as at 16 to a brace or angle 17 on the side of the rack so as to swing 35 upward to break the continuity of the tracks and the track sections are pivotally linked together as at 18 for simultaneous lifting of their outer ends at certain intervals during the operation of the machine.
These swinging sections of track upon being raised effect two important operations, rst they discharge a measured number of cans into thel holding rack 2, and second they eectually act as a stop or gate against the oncoming supply of cans to the machine.
The track sections are automatically lifted upon return stroke of the pusher bars 6 through means of a counterbalanced link and shaft connection operated by and upon return of the pusher bars, and which mechanism includes a small horizontal shaft 19 rotatably supported on the frame of the machine an arm 20 secured to the shaft pivotally linked at its forward end at 2l to the lowermost track section ,105 and counterweighted at 22 to take part of the weight of the track sections so that they can be lifted with little effort, while on the end of the shaft adjacent the can rack is secured an arm 23 formed in a manner to be struck by the lower- 110 most pusher bar upon its return movement toi the pusher bars, and from this valve the air pipe leads to the-rear end of the air cylinder 3 as at 24' while a line takes off from the incoming air pipe at a point before the valve 25 and is branched as at 26, 26 leading respectively to a reserve air chamber 27 and to the forward end of the air cylinder 3 just in back of the stuffing box 28 for the piston rod.
An automatic pressure regulator 29 of conventional construction holds a relatively low pressure in pipes 26, 26 and chamber 27 as this air functions merely as a spring to return the pusher bar carriage after each forward stroke upon exhaust of the power stroke air through valve 25 as later described.
Chamber 27 conveniently takes the form of a vertical cylinder closed at both ends and serving as the main post of the machine frame at the rear end of the air cylinder, while a gage 30 on pipe 26 or chamber 27 indicates the properly reduced pressure.
The air valve 25 is arranged to trip for different lengths of strokes so as to successively push layers of cans forward in the holding rack 2 and then to eject them with a long stroke into a box or.case pushed over the laterally projecting end of the rack. The valve generally designated 25 is of the piston type with diierent transverse passages or grooves to produce the required results, and is best shown in the enlarged Figs. 4, 5 and 6.
In these figures the incoming air pressure pipe 24 is indicated with its valve port 30 blocked by piston 31 and air pipe 24' from the power end of air cylinder 3 exhausting through chamber 32 piston port 33, body port 34 and exhaust pipe nipple 35 to atmosphere, so that with valve in this position low pressure air in chamber 27 will of course return pusher carriage to the left so thatia set of cans will be rolled from pivoted track sections into the holding rack.
With the above exhaust condition of the valve,
Va charge of cans rolling into the can-holding rack the end of a lever 36 in the path of the leading lower can will be tripped to shift the valve. This lever is pivoted at its other end at 37 to a lug on the side of the can-holding rack and pivotally linked at 38 to the end of one arm 39 of a bell crank pivotally supported at 40 on the valve body and having its other end `41 flattened and overlying the end 42 of the piston valve which is of wedge form with end rounded to make a good'working contact.
The arrangement of lever, link and bell crank form a toggle which is easily operated by the rolling cans, and a stop such as a pin 43 on lever 36 strikes link 38, as indicated in dotted position of the parts, to prevent the toggle straightening beyond the point shown so that a reverse movement of the valve will be able to reset lever 36. Lever 36 when once tripped by the entering cans remains down until later restored atthe long forward stroke of the pusher carriage.
Upon lever 36 being moved by the layer of cans rolling into the can-holding rack the valve is moved to the left and port 33 is displaced to close the exhaust and a port 44 is aligned with the air pressure port 30 to at once cause air piston 4 to force pusher carriage to the right and move the layer of cans forwardly in the can-holding rack. However, as soon as the cans have advanced far enough to clear a space for a fresh layer of cans to enter, a swinging latch 45 pivoted to the side of one of the carriage members 7 and projecting through an opening 46 in the lower web of the bar, strikes the upper end 47V of a small crank arm pivoted at 48 to a bracket 49 extending from the valve and the other end of which crank arm is slotted as at 50 and engages a pin 51 on a lug 52 secured to a reduced extension 53 of valve 31 so that the,
valve is again moved to the left.
. Upon this second movement to the left of valve 31, port 44 is shifted from inlet 30 to outlet 34 so that the carriage at once returns after the short forward stroke and another layer of cans roll into the rack just in back of the first layer which now occupy a forward position in the rack.
There are now two layers of cans in the rack and which is the usual quantity required in an ordinary fiber case of canned goods, and the operative now slips a case or box over the outer end of the rack and pushes it well on until its leading edge strikes the outwardly turned end 54 of a trip rod 55 which is slidably supported alongside the can rack and has its rear end positioned adjacent the lug 52 of the valve extension, so that the valve is once more slid to the left to thereby break the exhaust connection of port 44 and bring still another port 56 into alignment with the power port 30.
The valve is now to the left as far as it will go with valve extension 53 projecting to the left of supporting bracket 49, so that upon connecting of port 56 the carriage moves forward a full stroke and the pusher bars eject the cans into the case and the filled case into the hands of the operative while partially supported on a roller 57 mounted on a pair of outwardly extending frame braces 58.
This long forward stroke of the pusher carriage causes a lug 59 at the side of the carriage to strike the end of valve extension 53 and return the valve past all the ports to the starting position as well as to reset can trip levers l36, 47 and 55. At the final end of the forward stroke the exhaust 34 is open as shown in the drawings.
To insure alignment of the various valve ports as the valve is slid step by step to the left I provide a spring ball detent 60 working in depressions 61 properly spaced along the side of the valve.
As fiber cases have hinged cover flaps at the forward edges I provide an angular guard member 62 adjacent valve trip 54 so as to turn the flapon that side inward and guide it so that it will operate the trip.
Within the can-holding rack the shelves 12 are each given a. slight downward bend at 63 so as to retain the cans in place against rebound when received from the titled track sections, and these shelves `are formed with scalloped out portions 64 at their forward edges so that the cans in being pushed from the shelves will fall gently to rest upon one another in the forward part of` the rack and without danger of scraping the labels.
The forward -end of the rack is of somewhat 'reduced size 'so as to crowd the cans together and has no shelves. Its bottom 2" is scalloped at the forward edge at to prevent labels` being scraped as the cans and box are ejected.
Small stiifening angles 66 are provided on the side walls and placed in a position so as not to contact with the cans.
In operation of the machine, the return after ejccting a lled case and the short stroke .of the carriage are entirely automatic and the canholding rack is thus lled with cans almost before the filled case has been removed by the operative, so that the cases are filled just as fast as a man can place yempty cases over the end of the rack.
The yielding nature of the power application ywith just enough pressure t make it operate gives absolute insurance against accident or injury to the machine, as the machine will instantly stop at any excessive overload resulting from any cause.
Having thus described my invention it will be apparent that changes may be made without affecting the operation of the machine as expressed within the scope of my appended claims.
1. A machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operatively connected to said ejector, means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions and means tripped by the case for operating said pneumatic cylinder.
2. A machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of.cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operatively connected to said ejector, and means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions, the air for the return stroke being in non-exhausting confinement.
3. A machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, an ejector mounted for reciprocable movement in the rack for ejecting the cans, a pneumatic cylinder operativelyl connected to said ejector, means for supplying air to opposite ends of said cylinder for operating said ejector alternately in opposite directions, the air for the return stroke'being in non-exhausting confinement,
and means maintaining the confined air for the return stroke at substantially constant reduced pressure as compared with the air for the power stroke.
4. In a can caser, a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a can pusher carriagev secured to the free end of the piston rod and ar-l ranged in straddling relation to said cylinder, and means supporting said carriage on said cylinder for reciprocation upon movement of said piston.
5. In a can caser, a rack for holding the cans cured to the free end of the pistoiird arranged in straddling relation to said cylinder, and a roller carried by said carriage rollable along said cylinder.
6. In a can caser, a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a cam pusher carriage secured to the free end of the piston rod and arranged in straddling' relation to said cylinder, means supporting said carriage for reciprocation upon movement of said piston, and a multiple ported air valve on said machine provided with a plurality of tripping devices adapted variously to actuate said power cylinder upon movement of said carriage,
7. In a can caser, a rack for holding the cans to be cased, a horizontally disposed power cylinder provided with a piston and a piston rod projecting therefrom, a cam pusher carriage secured to the free end of the piston rod arranged in straddling relation to said cylinder, means supporting said carriage for reciprocation upon movement of said piston, and a multiple ported air valve on said machine provided with a plurality of tripping devices adapted variously to actuate said power cylinder, one of said trips adapted for actuation by cans fed to the rack and another by a casegplaced upon the same.
8. In a can casing machine, a can-holding rack adapted to hold a plurality of superimposed rows of cans for ejecting into a case to be filled, plates supporting the cans in layers for sliding therealong, and means for sliding the cans along the plates, the leaving edges of said plates being scalloped to reduce scraping action on the cans.
9. A machine of the character described comprising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, a pneumatically actuated ejector mounted for reciprocable movement in the rack for ejecting the cans, means arranged and adapted to control the movement of the ejector for giving said ejector short and long strokes whereby a row of cans is moved forward in the rack upon 'a short stroke and ejected upon along stroke.
10. A machine of the character described comprising a can-holding rack adapted to receive and hold a. plurality of -cans for ejecting into a case, a pneumatically actuated ejector mounted 11. A machine of the character described com-v prising a can-holding rack adapted to receive and hold a plurality of cans for ejecting into a case, a pneumatically actuating ejector mounted for reciprocable movement in the rack, means arranged and adapted to control the movement of the ejector for giving said ejector a short and long stroke whereby a row of cans is moved forward in the rack upon a short stroke and ejected upon a long stroke, the long stroke controlling means being in the path of a case to be filled when applied over said rack.
12. In a machine as dened in claim 11, the short stroke controlling means being in the path of incoming cans for operation thereby and the long stroke controlling means being in the path of the case to be filled when applied over said rack.
13. In a can casina machine, a can-holding rack adapted to hold a plurality of superimposed rows of cans, said rack being extended to receive the open end oi? a case to be filled, a. pneumatically actuated ejector mounted for reciplrocable movement in the rack, means arranged and adapted to control the movement of the ejector for causing the ejector to move to eject GEORGE L. HURST.
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2559655A (en) * 1945-09-24 1951-07-10 Burt Machine Company Case filling machine
US2578277A (en) * 1946-04-26 1951-12-11 Quaker Oats Co Container loading machine having automatic carton ejector
US2671589A (en) * 1946-12-05 1954-03-09 Eino E Lakso Article counting and filling
US2678151A (en) * 1951-08-22 1954-05-11 Econonic Machinery Company Apparatus for packing articles into containers
US2737327A (en) * 1951-04-27 1956-03-06 Wilson Machine for filling cases or boxes with packages
US2951323A (en) * 1956-04-30 1960-09-06 Gordon W Haab Casing machine
US2982415A (en) * 1957-05-08 1961-05-02 George C Contreras Portable irrigation filter
US3036414A (en) * 1959-05-18 1962-05-29 Jr Robert M Campbell Case positioner
US3237365A (en) * 1962-09-12 1966-03-01 Fmc Corp Case loading machine
DE1215575B (en) * 1963-07-30 1966-04-28 Internat Machinery Corp N V Adjustable dosing magazine for machines for packing cans in containers
DE1234615B (en) * 1963-07-30 1967-02-16 Internat Machinery Corp N V Method and machine for packing cans in staggered rows

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2559655A (en) * 1945-09-24 1951-07-10 Burt Machine Company Case filling machine
US2578277A (en) * 1946-04-26 1951-12-11 Quaker Oats Co Container loading machine having automatic carton ejector
US2671589A (en) * 1946-12-05 1954-03-09 Eino E Lakso Article counting and filling
US2737327A (en) * 1951-04-27 1956-03-06 Wilson Machine for filling cases or boxes with packages
US2678151A (en) * 1951-08-22 1954-05-11 Econonic Machinery Company Apparatus for packing articles into containers
US2951323A (en) * 1956-04-30 1960-09-06 Gordon W Haab Casing machine
US2982415A (en) * 1957-05-08 1961-05-02 George C Contreras Portable irrigation filter
US3036414A (en) * 1959-05-18 1962-05-29 Jr Robert M Campbell Case positioner
US3237365A (en) * 1962-09-12 1966-03-01 Fmc Corp Case loading machine
DE1215575B (en) * 1963-07-30 1966-04-28 Internat Machinery Corp N V Adjustable dosing magazine for machines for packing cans in containers
DE1234615B (en) * 1963-07-30 1967-02-16 Internat Machinery Corp N V Method and machine for packing cans in staggered rows

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