US1490923A - hansen - Google Patents

hansen Download PDF

Info

Publication number
US1490923A
US1490923A US1490923DA US1490923A US 1490923 A US1490923 A US 1490923A US 1490923D A US1490923D A US 1490923DA US 1490923 A US1490923 A US 1490923A
Authority
US
United States
Prior art keywords
devices
machine
movable
axis
tank
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US1490923A publication Critical patent/US1490923A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B3/00Packaging plastic material, semiliquids, liquids or mixed solids and liquids, in individual containers or receptacles, e.g. bags, sacks, boxes, cartons, cans, or jars
    • B65B3/26Methods or devices for controlling the quantity of the material fed or filled
    • B65B3/30Methods or devices for controlling the quantity of the material fed or filled by volumetric measurement
    • B65B3/32Methods or devices for controlling the quantity of the material fed or filled by volumetric measurement by pistons co-operating with measuring chambers
    • B65B3/323Methods or devices for controlling the quantity of the material fed or filled by volumetric measurement by pistons co-operating with measuring chambers with measuring chambers travelling in an endless path

Definitions

  • devices for delivering' measured quan tities ci substance 4 such .as fluids; semilluids, pulverulentfinaterials v.and the like;r to re;- ceptacles, and has specific relation to im ⁇ roveinents inmachines for automatically 'elivering'to cans', predetermined quantities of materlal such as syrup, jelly, jam, pre serves, minc ⁇ e-r ⁇ neat, mustard,I fruit butter, salad dressing, tomato paste, condensed milk,4 1e ilfaporatedini-lk, whole 'milley paint .and 'the are.
  • Anobject of the invention is .to rovi'de alilling machine which. is simple'i'n construction and eicient in operation.
  • trol -lever having been omittedf Fig; 5 is a transverse -vhorizontal sectonz.
  • fram e structure of the can llng chine is. adapted for 4cooperation with filler mechanisms [of various types as setfforth in application SerialNa v157 ,308, filed. March,
  • The'drfiving 4i"mechanism. . which is also adapted; for'icooperation withfillers of varihereinsforcl referred to, comprises a hori- Zonta-1v power shaft20lv supported in bearings formed. integral With the, frame element. 15
  • bracket 412 secured ,to-oneo'f the side: frames 17 see FigsfI-'vand f4.
  • the movable clutchjelement 165- isspI-inedfto the.
  • the tank 6 and cylinders: 7 'are upper" extremitvof th'e-mainshaft 11 is a rotatable cutf-oli'plate y28z and a can conveyor 31, both of 1these. elements lbeing attached, directly to the main shafts'. 1-1 by 'means of :a
  • the f can, feed vmechanism comprises ,a guide chute ofthe 4successive-cans 19 and to deliver the cans-:upon the horizontal Aplane 4surface 49 of the framegelement 15.;
  • the can discharging ⁇ mechanism comprises'4 a rotary-disc; 68,. a lrevolving; ⁇ can iconv veyor --69 vand adjiistable 4stationary 'ejectors 70,' 71.
  • the disc 68 and conveyor 694 are rotatable by means of- -gearingpass'ociated- -with plication Serial No. 347,110, filed De'cemf ber 24, 1919'.
  • the guide; 14.- extends ffromthe:
  • the material measuring', and delivering mechanism has several novelifeatures forming lthe subject :of copending application Serial No; 197,809 led :October 22, 1917, and application Serial Number-300,993, filed 28 rotatable .by and coaxially .with 4the vshaft 11, a bearing plate 26.'securedto the stationary element: 57 and having therein a tapered bore 43, formed eccentrically of the shaft I supply tank 6 and arranged fin an annulus formed lintegral and coact withthe upper 11,- andan annular series of seven measuring cylinders 7 secured tothe peripheryaof :p1-'125' 7 and flo from the machine.
  • thetank :,eaopas 29 located in the central recess 58A of the plate 28 are pivoted at corresponding ends to the plate 28 and at their op osite correspending ends to the bottom o the tank 6, by means of pivot pins 45, see Figs. 1, 3 and 6.
  • the eccentricity of the opening 46 in the bottom of the tank 6 relatively to the recess 58 in the plate 26, is such that during simultaneous rotation of the tank 6 c linders 7 and late 28 by virtue of the i s 29, the cylin ers 7 are successively laced into communication with the tank 6 t rou h the opening 46 and recess 58, as indicat in Fig. 3.
  • the plate 28 is also provided with an annular series of seven discharge nozzles 56 which are spaced equidistant apart and from the axis of the shaft 11.
  • the nozzles 56 are located above and directly 1n line with the cans 19 which are being transpgrted through the machine by the can hooks 4
  • the element 57 is prevented from rotating by means of the brackets 27 secured to the side frames 17 as shown in Fig.
  • each measuring cyllnder has therein a reciprocable piston 9 provided with a piston rod 42. The upper end of each piston rod 42 is secured to a late 8 to which a guide 12 is also secured.
  • lie guides 12 are arallel to the piston rods 42 and coact wit ide yways 10 formed inte al with the wa s of the cylinders 7.
  • Eac ide 12 has a roller mounted thereon, w ich coacts with the adjacent cam tracks 13,24. As the cylinders 7 revolve, the rollers 25 coact with the adositively raise and lower the pistons ⁇ 9 within the cylinders 7.
  • a float 2 which rests u on the liquid within the tank and which as a central inlet pipe the upper ex- ⁇ tremity of which forms a cut-olf valve adapted to enter an annular recess in the valve seat 5 to automatically cut olf the supply of lluid when a predeterminedhigh level of fluid is established in the tank 6.
  • This automatic cut-of valve is entirely balanced being sensitive and 'tive in action.
  • the bottom of is provided with a filter or screen ing the machine.
  • Such ⁇ automatic closing of the valve 34 is effected by the lever 60 pivoted at its medial portion to the frame 17, and having at one end a slot engaging the pin 37 on the stem of the valve 34 and at its opposite end a pin 38 engageable with the lever
  • the clutch 23 is brown in by means of the control lever 61 as shown in Fig. 1, causin the shaft 20l to rotate. Rotation of the sha 2O is transmitted to the gears 18, 16 to the main shaft 11, can conveyor 31 and plate 28.
  • the rotatin gear 16 causes the feed drum 62 and can ischarge plate 68 and ejector 69 to rotate, thereby gently feeding the cans 19 in succession into the path of the moving can hooks 47, around the shaft 11 and from the machine.
  • the milk or other liquid is supplied to the tank 6 through the Ripe 3 upon opening of the slide valve 34, t e float 2 restin upon the liquid in the tank 6.
  • the float 2 rises and eventually automatically closes the cutolf valve,upon attainment of a predetermined high level of liqluid in the tank 6.
  • the cut-oilva ve automaticallyl opens and replenishes the suly'in the tank 6 through the interior of the oat 2.
  • the control of milk admitted to the tank 6 is thus effected automatically and an approximately constant head of fluid is maintained in the tank.
  • the quantities of liquid delivered to successive cans may be readily varied by vertical adjust-ment of the cam tracks 13, 24 such adjustment being effected by means of the hand wheels 50.
  • the adjustment may be made without removing any part of the machine and while the machine is in operation. Such adjustment may be desirable in order to increase the clearance in the cans or when filling cans of diil'erent sizes.
  • the entire machine may be readily dismantled by swinging the inlet pipe 3 out of the way after disconnection thereof, removing ithe u per cross frame 4.
  • the pistons 9 and eir cooperating plates 8, guides 12 and rollers 25, may bev freely vertically removed when positioned at the medial portion of the cam track 13, without disturbing the position of the upper frame 4 or any other part of the'machine.
  • the float 2, cylinders 7 and tank 6 are freely vertically removable.
  • the cam tracks 13, 24 ma be removed by yreleasing the nuts an hand wheels 50.
  • the frame element 57, hearing plate 26, cut-of plate 28 and conveyor 31 may also be vertically removed in succession, by releasin the set screw 32.
  • the screen 30 and li 29 are held in place by gravity and are also readily removed, thus makin all parts of the machine readily accessib e for cleaning, inspection and renewal of parts.
  • the machine is operable to fill deliver an average of 150 cans 'per minute without wasting .substance or injurmamma f amg a r ro ra ent o wo has belen Ihoiade.J
  • the elimination of I:iomplicated valves and other parte which are andl no4 attention liable to become inoperative further eliminates necessity of attention. As most of the elements may be entirely finished by turning or boring, the cost o construction is reduced to a minimum.
  • material supply means In a filling machine, material supply means, a measuring device, a displacement member associated with said device, an element constituting a wall for said device, and having a dischargeorifice, means for simultaneously gyrating said device and said element about dierent axes to alternately establish communication between said su ly means andv said device and between saiciqdevice and said discharge orifice, and means for relatively reciprocating said device and said member during said gyration.
  • material supply means material supply means, a measuring device, an element constituting al wall for said device, and means for simultaneously continuousl said device and said element ut different axes to establish communication between ,said supply means and said device.
  • material supply means material supply means, a measuring device, a displacement member associated with said device, an element constituting a wall for said device, means for simultaneously continuously gyrating saiddeviee and said element about dierent axes to establish communication between said sup ly means and said device, and means for re atively reciprocating said device and said lmember during said gyration.
  • a measuring device In a filling machine, a measuring device, an element constituting a wall for said device and having adischarge orifice, and means for simultaneously continuously gyrating said device and said element about different axes to establish communication between said device and said discharge ori- 6.
  • a measuring desaid device,l an element constituting a wall for said deviceand having a discharge oriflee', means for simultaneously gyrating said gyrating iss vice, a displacement member associated with Y device and said element about diierent ing va bottom closure for said device and means, a measuring device, a displacement having a discharge orifice, and means for simultaneously continuously rating said device and said element about 'erent axes to alternately establish communication between said sup ly means and said device and between said evice and said discharge ori- 8.
  • material supply member formin a closure for one end ⁇ of said device, an e ement forming a closure for the opposite end of said device and having a discharge orifice, means forsimultaneously lyrating said device and said element about Herent axes to alternately establish communication between said su ly means and said device and between saidpdevice and said discharge oriiice, and means for relatively reciprocating said device and said member durin said ration.
  • a El ing machine material supply means, a measuring device movable about an axis, an element movable about a dierent parallel axis to rovide a bottom closure for r said device, sai element having a discharge orifice, and means for simultaneously continuously revolving said device and said element about said axes to alternately establish communication between said supply means and the bottom of said device and between the bottom of said device and said discharge orifice.
  • material su ply means a measuring device movable about an axis, an element movable about 4a different parallel axis and providingfa closure for said device, and means for simultaneously continuously revolving said device and said element about said axes whereby communication is established between said supply means and said device.
  • a measuring device movable about an axis, an element movable about a diiierent parallel axis to provides closure for said device, said element having a discharge orifice, and means :for4
  • material supply means material supply means, a series o measuring devices, an element constituting a wall for all of said -devices and having discharge demandss, and means for simultaneously moving all of said devices and said element relatively to each other to alternately establish communication devices and between successive devices andi said dischar orifices.
  • material supply means material supply means, a series of measuring devices, an elcment constituting a wall for all of said devices and having discharge orifices, and means for simultaneously gyratin yall of said devices and said element about ferent axes to alternately establish communication between said supply means and successive devices and between successive devices and said dischar orifices.
  • material supply means material supply means, a series of measuring devices, an elcment constituting a wall for all of said devices and having discharge orifices, and means for simultaneously gyratin yall of said devices and said element about ferent axes to alternately establish communication between said supply means and successive devices and between successive devices and said dischar orifices.
  • elcment constituting a wall for all of said devices and having discharge orifices
  • means for simultaneously gyratin yall of said devices and said element about ferent axes to alternately establish communication between said supply means and successive devices and between successive devices and said dischar orifices.
  • material sup ly means, a series of measuring devices, aA splacement member associated with each of said devices, an element constituti for all of said devices and havin discharge orifices, means for simultaneousy moving all of said devices and said element relatively to each other to alternately establish communication between said supply means and successive devices and between successive devices and said discharge orifices, and means for relatively recprocating said devices and the adjacent isplacement members during said movement.
  • material sup ly i means, a series of measuring devices, a 'splacement member associated with each of said devices, an element constitutin a wall for all of saidA devices and having discharge orifices, mean for simultaneously gratin all of said devices and said ele- ⁇ ment about different axes to alternately establish communication between said supply means and successive devices and between successive devices and said ⁇ discharge orifices, and means for relatively recipro- ⁇ u catin said devices and the adjacent lmembers uring said gyration.
  • a filling machine a plurality of measuring devices, a displacement member associated with each of said devices, an element constituting a wall for said devices and having discharge orifices, means for simultaneously relatively gyrating all of said devices and said element about different axes to successively establish communication between said discharge orifices and said devices, and means for relatively reciprocatin said devices and said members during sai gyration.
  • a plurality of measuring devices movable about an axis, a displacement member within each of said devices, an element movable about a different axis and roviding a closure for said devices, said ement havingdischarge orifices, means for rotating said devices and said element about said axes to successively establish communication between said discharge orifices and said devices, and means for relatively reciprocating said devices and said members during said rotation.
  • material supply means material supply means, a plura ity of measuring devices movable about an axis, a displacement memberwithin each of said devices, an element movable about a dierent axis to provide a closure for said devices, means for rotating said devices and said element about said axes to successively establish communication between said supply means and said devices and means for relatively reciprocatin sai 1devices and said members during sai rotaion.
  • a measurin device movable a ut an axis, a cut-off e ement movable in proximity to said device about a diierent arallel axis, said element havingva ⁇ disc r e orifice, drivin means connecting said e ement and sai device, and means for positively rotating said element to simultaneously revolve said device and said element about said axes whereby communication is alternately established between said supply means and said device and between said device and said dischar orifice.
  • material su ply means va measurin device movable a out antaxis, a cut-0E ciment movable in proximi driving means connecting said element and said device, and means for ositively rotating said element ⁇ to simu taneously revolve said device and said element about said axes whereby communication is established between said supply means and said device.
  • said element movable in proximity to said device about a different parallel axis, said element having a discharge orifice, drivi means connecting said e ement and said evice, and means for positively rotating said element to simultaneously revolve said device and said element about said axes whereby communication is established between said device and said dischar e orifice.
  • a measuring device In a lling machine, a measuring device, an element in proximity to said device, means for continuousl rotating one of said members, and a movab e link associated with both of and located within said members for transmitting the continuousV rotary movement of the one to the other.
  • a vmeasuring dev vice In a filling machine, a vmeasuring dev vice, an element in proximity to said device, means for continuously rotating said element, and a plurality of parallel movable links associated with both said device and said element for communicating continuous rotary motion from said element to s'aid device, said links being located within said element.
  • a measuring device having an axis,an element constituting a wall for said device having a parallel axi means for continuously rotating one of sai members, and a link associated with both of said members for transmitting continuous rotary motion from one of sai members to the other about said axes.
  • a measuring device having an axis, an element constituting a wall for said device having a parallel axis, means for continuously rotating said element about its axis, and a plurality of parallel links associated with both said device and said element for communicating rotary motion from said element to produce continuous rotation of said device about its axis.
  • a measuring device having an axis, an element constituting a wall for said device and movable about a parallel axis, means for continuously rotating one of said members, and a associated being movable in a plane'perpendicular to said axes to transmit continuous rotary motion from one of said members to the other.:v
  • a measuring de- 'ice having an axis, an element constituting L Wall for said device and movable about a xarallel axis, means for continuousl rotatni said element about its axis, an a plura 'ty ofparallel links associated with both said device and said element, said links being movable in 151m pel-panama m id axes to commumcate rota said element whereby said motion from evice 1s contln- 10 uously rotated about its axis.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Basic Packing Technique (AREA)

Description

April 22 1924.
o. H. HANSEN CAN FILLING MACH INE Filed May 31 1919 4 Sheets-Sheet 2 I rInn/'ENTE AT1-:1R NEY.
EIY
TT DQNEY.
April A22 1924.
O. H. HANSEN CAN FILLING MACHINE Filed May 31 1919 4 Sheets-Sheet 4 Flu AT1-BRN EY Patented Apr. 22, 1924.
PATENT gewinn n. nissan. or. roar wisnmgroa. nissiorsmassmroa 'immessa 'ferarrfferraersr- "i Applicaties and gesya`1, 191g. seal np. 300,992.
'ofall whomz't may concerns.' 4Be it known that OsWALD H. HANSEN, a citizen'of the UnitedStates, residing at Bort lYa'shington, infthe county of .Ozaukee and 5 Statefof Wisconsin, has invented a 'certain newzan'd useful Improvement in .CanlFilling Machines; of .which 'th following-is a specification. i v fThis invention relates in Vgeneral to improvement's in the constructionhnd' operation of. devices for delivering' measured quan tities ci substance 4 such .as fluids; semilluids, pulverulentfinaterials v.and the like;r to re;- ceptacles, and has specific relation to im` roveinents inmachines for automatically 'elivering'to cans', predetermined quantities of materlal such as syrup, jelly, jam, pre serves, minc`e-r`neat, mustard,I fruit butter, salad dressing, tomato paste, condensed milk,4 1e ilfaporatedini-lk, whole 'milley paint .and 'the are.
Anobject of the invention is .to rovi'de alilling machine which. is simple'i'n construction and eicient in operation.' Sonie 4of the moire'spec-ific objects of the resent invention may .befenumerated as ol-lowsz To .produce a simple', compact and automatic =.illing machine which is operablel at maximum speed and which will require minimum attention while i'n operation;
To provide a device which lwill deliver accurately .pre-measured. quantitiesbf fluent substance to receptaclegxithout Wasting.
any of'the 'substance Toprovide a filling machine Which'may be readily assembled and dismantled, and ,ini which all parts are` readily accessible 'for cleaning, inspection .and renewal of parts. 4u
transport and' fill'opentopped sanitary cans, without in any manner inj'uringthe'cans To provide ajmechanisni in' lwhich ,the use of non-metallic .packing 'or sealing element-s isavoided, andin which the ,various bearing surfaces are automatically fand eiectively lubricated.
To` Vprovide means Afor accurately Y and rapidly adjusting or varying tlie lquantities ofsubstance Iiieasured.i
To.. rovide various details of construction ando operation of `filling machines, which To provide a iller'adapted tospeedily.
will reduce toa minimum theconstruction and operatin costs, and which will :produce maximum e c1en'cy."` 1 Several pf the n qvel features of thema` chine herein disclosed, orin n`o" part'off'tle present* invention, "such fatiires'- being claimed broadly in co-pecling applications. The frame structure for 'xampleTor'mstlie subyect of application SerialNoLf'lIDS, filed March 26,1.l9117l .Tlie' feature -o'leliminatin'g i-*alve's as iye'll jas some of tli'ethei' details of fill-ing rIna-chine construction, form the subject of application Serial- No11^'97,809, filed I October 22,4 1917.' @The power l control and' manipulating structure' forms the y'sub-- )ect 'of application .Serial No..2l4,205,' filed January28, 1918. .The can .feed mechanism forms the subject ofapplication'Serial'No. 253,177," filed September:951918.'4 .The discharge nozzle forms the subject of application Serial No'. 300,993," filed ,3L-19329.
employed throughoutl this specification, 1 it is.
designate any` fluent substance; .The'princp'ls of the invention are applicable generally to' machines for automatically 'feeding` A clear conception of as Vecific'e'mbodimentof theinvention and o the operation of a l deviceconstructed in accordance ,the'lelwith, may vb'ehadby referring to the dra\v ings accompanying and formm part i of this 4 spcciication,` in "which .like re erence char'- acters designate the same or similar parts m'tli'e various views. t f
Fig. ,.1 is a vertical section through a ma-A chine adapted to automatically deliver pre-V measured"quantities ofV milk and 4like =lluent:
substances to successive chris, 'the section Ebein'g taken alon the irregulaltlnie Lil-I' of F1 g. l3,-.look1ng1n' the' directionY offthe' arrows.
looking'.toward the' driving pulley,` the conv.
trol -lever ,having been omittedf Fig; 5 is a transverse -vhorizontal sectonz.
through the machine, taken along the -li'ne Vf-lI-V of"Fig. ,1 looking inthe-.direction of 'thearrovv's.` Fig.` 6 is a fragmentaryf vertical sectlonl through Athefmachine," taken; -alcng the girregu'la-rline VLVI- of Fig'. 5, looking in the direction-:.of-the arrows.
The;: fram e structure :of the can llng chine is. adapted for 4cooperation with filler mechanisms [of various types as setfforth in application SerialNa v157 ,308, filed. March,
26,?1917 and Icom-prises a pairof spaced vertical'sideframes; 1-7 which are interconnected at their-' lowen-.L-portions by a horizontal ous, tyesf as "set forth i the v applicationcross-frames:3 9 supporting a central bears ing ;4'8,'-'at.their medial portions by' means of a, horizont'al'fframe element 15,1 and i at' their upper fextremities by means vof a-'horizontal 1 crossframecarrying the fluid inlet pipe 3.
and anfauto'matic control Valve-seat 5, .see
The'drfiving 4i"mechanism. .which is also adapted; for'icooperation withfillers of varihereinsforcl referred to, comprises a hori- Zonta-1v power shaft20lv supported in bearings formed. integral With the, frame element. 15
and an outer bearing formed in. the bracket 412 secured ,to-oneo'f the side: frames 17 see FigsfI-'vand f4. fA ,driving pulley y212is mountedupon-the-power sha 20 adjacent to the bracket 41 and. is adapted tobe driv -ing'ly connected Ato the'shaft` 20-=by means of. a jaw, cltch":23. The movable clutchjelement 165- isspI-inedfto the. shaft-20 and isa shiftable by means of`anoperating .lever I(i1- pivotally mounted .upon-a supporting braclra'4 et 64.' Theshaft :20 'is ffixe'd"against longitudinal displacement; by means of thrust..y collars 40 :and-has. a Ibevel pinion 18 --secured concurrently; herewith. This: mechanism comprises therotatable feed and.cut-oil'plate toitsinner extremity. The pinion'1'8 meshes --dial portion:'of;the .vertical main shaft 11.
Themaimshafti `l1 ,is mounted in thebearinggB inxthe', lowencross frame 39 and in=a bearing. 22'secured to the 4frameelement 1.5,' and'4 is; restrained from movingupvvardly by means-:of 'a 4vthrust collar 44. 'Secured to 'the .y l y ecoentrical'ly of the axis'of the shaft 1 1-and plate 128.. The tank 6 and cylinders: 7 'are upper" extremitvof th'e-mainshaft 11 is a rotatable cutf-oli'plate y28z and a can conveyor 31, both of 1these. elements lbeing attached, directly to the main shafts'. 1-1 by 'means of :a
common set screw f32,. and the conveyor ;81 being additionallyv secured to the gear -16 by means of -averticalv rod '36.;
The can feed, transporting Eand .discharg ming mechanisms .are also of novel:4 structure as set forth in, applications Serial No.
No. 253,177 'filed September' 9, 1918.- The f can, feed vmechanism comprises ,a guide chute ofthe 4successive-cans 19 and to deliver the cans-:upon the horizontal Aplane 4surface 49 of the framegelement 15.; The drum- 62; is 1 secured'to =a counter shaft-'166 which is supported in bearings; in the frame 72 vvhichin turn is associated iwith the, frame.- element-15,3 the counter shaft being rotatable =byzimeans of 'a bevelapinion 67 meshing with the'main gear-16. A hand-wheel -66 attached to the counter shaft 166 -is rovided for vmanu-al operation 1of. the -mac ine .when vthe .power clutch 23 is disconnected; see-Figs and 6.,
The ca'nf; transporting mechani'si'n comprises, 1 tlieurotary:conveyor'V 31 having a series-'fof' seven' equally* spaced can hooks'47 for i slidingthe successive cans 19 over the surface 49,ua'nd a stationaryguide I111 forcenning the movement of the cans =19xto vacircnlar path'con'centric 'vvith the axisi-oIl'z-theA shaft 11. The can discharging `mechanism comprises'4 a rotary-disc; 68,. a lrevolving;` can iconv veyor --69 vand adjiistable 4stationary 'ejectors 70,' 71. The disc 68 and conveyor 694 are rotatable by means of- -gearingpass'ociated- -with plication Serial No. 347,110, filed De'cemf ber 24, 1919'. The guide; 14.- extends ffromthe:
:feedA drum;62 to the: disc 68. These can han+ dlingmechanisms are adapted to gentlyfeed, transport and deliver the successive cans .'19, to, throughand from the filler Withoutsinjuring the cans ,or wasting any 'of-the substance by splashing.
-The material measuring', and delivering mechanismhas several novelifeatures forming lthe subject :of copending application Serial No; 197,809 led :October 22, 1917, and application Serial Number-300,993, filed 28 rotatable .by and coaxially .with 4the vshaft 11, a bearing plate 26.'securedto the stationary element: 57 and having therein a tapered bore 43, formed eccentrically of the shaft I supply tank 6 and arranged fin an annulus formed lintegral and coact withthe upper 11,- andan annular series of seven measuring cylinders 7 secured tothe peripheryaof :p1-'125' 7 and flo from the machine.
jacent stationary cam tracks, and
thetank :,eaopas 29 located in the central recess 58A of the plate 28 are pivoted at corresponding ends to the plate 28 and at their op osite correspending ends to the bottom o the tank 6, by means of pivot pins 45, see Figs. 1, 3 and 6. The eccentricity of the opening 46 in the bottom of the tank 6 relatively to the recess 58 in the plate 26, is such that during simultaneous rotation of the tank 6 c linders 7 and late 28 by virtue of the i s 29, the cylin ers 7 are successively laced into communication with the tank 6 t rou h the opening 46 and recess 58, as indicat in Fig. 3. The plate 28 is also provided with an annular series of seven discharge nozzles 56 which are spaced equidistant apart and from the axis of the shaft 11. When the cylinders 7 are in communication with the tank 6, they are cut olf from communication with the nozzles 56, each cylinder 7 being brought successivel into communication with the tank 6 andy with a nozzle 56 as the cylinders plate 28 are relatively gyr'ated. The nozzles 56 are located above and directly 1n line with the cans 19 which are being transpgrted through the machine by the can hooks 4 The element 57 is prevented from rotating by means of the brackets 27 secured to the side frames 17 as shown in Fig. 3, the element 57 being freely vertically removable Vertically adjustably secured to the brackets 27 are lower and upper .cam tracks 13, 24 which extend in roximity to the measurin cylinders 7. .rlhese cam tracks 13, 24 have ubs 52 which are in line with hubs 54 of the brackets 27. The alined hubs 52 54 are relatively adjustably secured to each other by means of stud bolts l53, nuts 55 and adjustln hand wheels 50. Each measuring cyllnder has therein a reciprocable piston 9 provided with a piston rod 42. The upper end of each piston rod 42 is secured to a late 8 to which a guide 12 is also secured. lie guides 12 are arallel to the piston rods 42 and coact wit ide yways 10 formed inte al with the wa s of the cylinders 7. Eac ide 12 has a roller mounted thereon, w ich coacts with the adjacent cam tracks 13,24. As the cylinders 7 revolve, the rollers 25 coact with the adositively raise and lower the pistons `9 within the cylinders 7.
. Within the tank 6 is located a float 2 which rests u on the liquid within the tank and which as a central inlet pipe the upper ex-` tremity of which forms a cut-olf valve adapted to enter an annular recess in the valve seat 5 to automatically cut olf the supply of lluid when a predeterminedhigh level of fluid is established in the tank 6. This automatic cut-of valve is entirely balanced being sensitive and 'tive in action. The bottom of is provided with a filter or screen ing the machine. Such `automatic closing of the valve 34 is effected by the lever 60 pivoted at its medial portion to the frame 17, and having at one end a slot engaging the pin 37 on the stem of the valve 34 and at its opposite end a pin 38 engageable with the lever During the normal operation of the machine power'is a the clutch 23 is brown in by means of the control lever 61 as shown in Fig. 1, causin the shaft 20l to rotate. Rotation of the sha 2O is transmitted to the gears 18, 16 to the main shaft 11, can conveyor 31 and plate 28. The rotatin gear 16 causes the feed drum 62 and can ischarge plate 68 and ejector 69 to rotate, thereby gently feeding the cans 19 in succession into the path of the moving can hooks 47, around the shaft 11 and from the machine.
The milk or other liquid is supplied to the tank 6 through the Ripe 3 upon opening of the slide valve 34, t e float 2 restin upon the liquid in the tank 6. As the leve of the liquid in the tank 6 rises, the float 2 rises and eventually automatically closes the cutolf valve,upon attainment of a predetermined high level of liqluid in the tank 6. As the li uid level in t etank 6 drops, the cut-oilva ve automaticallyl opens and replenishes the suly'in the tank 6 through the interior of the oat 2. The control of milk admitted to the tank 6 is thus effected automatically and an approximately constant head of fluid is maintained in the tank. l n
As the late 28 is rotated, its motion is transmitte through the parallel links 29 and pins 45 to the tank 6 and cylinders 7,
plied to the pulley 21 and causing the tank and cylinders `to revolve about the axis of the bore 43 and to rate relatively tothe plate 28. The revo ving cylinders 7 advance their corresponding rollers 25 along the inclined cam tracks 13, 24 causing the pistons 9 within the cylinders 7 to rise when the cylinders are m communication with the recess 58, and to move downwardly when the cylinders are in com# munication with the cans 19 through the nozzles 56. As communication is established between the tank 6 and c` linders 7, the corresponding pistons are lifted and fluid is drawn by the suction reduced and by virtue of the head of iluid established` in the tank 6, from within the tank 6`into`r the cylinders 7, filling the cylinders andy measuring definite amounts of the fluid;` As communication is established between lll the cylinders 7 and the corresponding dischar e nozzles 56, the fluid is forced from within the cylinders by the descending pistons and is delivered through the nozzles 56 into the cans 19 below, in the form of solid jets. The formation of the nozzles and the -fact that they are interially unobstructed eliminates excessive a itation of the liquidforced therethrough an consequentl eliminates frothing and splashin'hof the liquid deposited into the cans 19. e successive cans 19 are thus automaticallyy filled or sup lied with definite equal quantities of the iquid. n
The quantities of liquid delivered to successive cans may be readily varied by vertical adjust-ment of the cam tracks 13, 24 such adjustment being effected by means of the hand wheels 50. The adjustment may be made without removing any part of the machine and while the machine is in operation. Such adjustment may be desirable in order to increase the clearance in the cans or when filling cans of diil'erent sizes.
The entire machine may be readily dismantled by swinging the inlet pipe 3 out of the way after disconnection thereof, removing ithe u per cross frame 4. The pistons 9 and eir cooperating plates 8, guides 12 and rollers 25, may bev freely vertically removed when positioned at the medial portion of the cam track 13, without disturbing the position of the upper frame 4 or any other part of the'machine. After the upperv frame 4 has been removed, the float 2, cylinders 7 and tank 6 are freely vertically removable. The cam tracks 13, 24 ma be removed by yreleasing the nuts an hand wheels 50. The frame element 57, hearing plate 26, cut-of plate 28 and conveyor 31 may also be vertically removed in succession, by releasin the set screw 32. The screen 30 and li 29 are held in place by gravity and are also readily removed, thus makin all parts of the machine readily accessib e for cleaning, inspection and renewal of parts.
When opleratin on milk, the fat contained in t e m' is forced into the space between coactingI relative] movable surfaces, thus automatically ubricating such surfaces and providing a packingegllxiich prevents leakage and waste of su ces. All movable parts of the machine are rotatable continuously in the same direction thereby eliminating excessive agitation an splashing of the liquid such as would occur in reversing the movement of rapidly movparts. The machine is operable to fill deliver an average of 150 cans 'per minute without wasting .substance or injurmamma f amg a r ro ra ent o wo has belen Ihoiade.J The elimination of I:iomplicated valves and other parte which are andl no4 attention liable to become inoperative further eliminates necessity of attention. As most of the elements may be entirely finished by turning or boring, the cost o construction is reduced to a minimum.
It should be understood that it is not desired to limit the invention to the exact details herein shown and described for variousmodiiications within the scope of the ap nded claims may occur to persons ski led in the art.
`Itis claimed and desired to secure by Letters Patent a 1. In a filling machine, material supply means, a measuring device, an element constituting a wall for said device and having a discharge orifice, and means for simultaneously continuously gyrating said device and said element about different axes to alternatelyl establish communication between said supicy means and said device and between sai evicevand said discharge orifice. Y 2. In a filling machine, material supply means, a measuring device, a displacement member associated with said device, an element constituting a wall for said device, and having a dischargeorifice, means for simultaneously gyrating said device and said element about dierent axes to alternately establish communication between said su ly means andv said device and between saiciqdevice and said discharge orifice, and means for relatively reciprocating said device and said member during said gyration.
3. In a filling machine, material supply means, a measuring device, an element constituting al wall for said device, and means for simultaneously continuousl said device and said element ut different axes to establish communication between ,said supply means and said device.
4. In a filling machine, material supply means, a measuring device, a displacement member associated with said device, an element constituting a wall for said device, means for simultaneously continuously gyrating saiddeviee and said element about dierent axes to establish communication between said sup ly means and said device, and means for re atively reciprocating said device and said lmember during said gyration.
5. In a filling machine, a measuring device, an element constituting a wall for said device and having adischarge orifice, and means for simultaneously continuously gyrating said device and said element about different axes to establish communication between said device and said discharge ori- 6.. In a filling machine, a measuring desaid device,l an element constituting a wall for said deviceand having a discharge oriflee', means for simultaneously gyrating said gyrating iss vice, a displacement member associated with Y device and said element about diierent ing va bottom closure for said device and means, a measuring device, a displacement having a discharge orifice, and means for simultaneously continuously rating said device and said element about 'erent axes to alternately establish communication between said sup ly means and said device and between said evice and said discharge ori- 8. In a filling machine, material supply member formin a closure for one end` of said device, an e ement forming a closure for the opposite end of said device and having a discharge orifice, means forsimultaneously lyrating said device and said element about Herent axes to alternately establish communication between said su ly means and said device and between saidpdevice and said discharge oriiice, and means for relatively reciprocating said device and said member durin said ration.
9. a El ing machine, material supply means, a measuring device movable about an axis, an element movable about a dierent parallel axis to rovide a bottom closure for r said device, sai element having a discharge orifice, and means for simultaneously continuously revolving said device and said element about said axes to alternately establish communication between said supply means and the bottom of said device and between the bottom of said device and said discharge orifice. Y
10. In a filling machine, material su ply means, a measuring device movable about an axis, an element movable about 4a different parallel axis and providingfa closure for said device, and means for simultaneously continuously revolving said device and said element about said axes whereby communication is established between said supply means and said device.
11. In a filling machine, a measuring device movable about an axis, an element movable about a diiierent parallel axis to provides closure for said device, said element having a discharge orifice, and means :for4
simultaneously continuously revolving said device and said element about said axes to establish communication between said device and said discharge orilice.
` 12. In a filling machine, material supply means, a series o measuring devices, an element constituting a wall for all of said -devices and having discharge orices, and means for simultaneously moving all of said devices and said element relatively to each other to alternately establish communication devices and between successive devices andi said dischar orifices.
13. In a ing machine, material supply means, a series of measuring devices, an elcment constituting a wall for all of said devices and having discharge orifices, and means for simultaneously gyratin yall of said devices and said element about ferent axes to alternately establish communication between said supply means and successive devices and between successive devices and said dischar orifices. f' a 14. In a ling machine, material sup ly means, a series of measuring devices, aA splacement member associated with each of said devices, an element constituti for all of said devices and havin discharge orifices, means for simultaneousy moving all of said devices and said element relatively to each other to alternately establish communication between said supply means and successive devices and between successive devices and said discharge orifices, and means for relatively recprocating said devices and the adjacent isplacement members during said movement.
a wall 15. In a filling machine, material sup ly i means, a series of measuring devices, a 'splacement member associated with each of said devices, an element constitutin a wall for all of saidA devices and having discharge orifices, mean for simultaneously gratin all of said devices and said ele-` ment about different axes to alternately establish communication between said supply means and successive devices and between successive devices and said `discharge orifices, and means for relatively recipro-` u catin said devices and the adjacent lmembers uring said gyration.
16. In a filling machine, material supply means, a pluralit of measuring devices, an
element constituting a wall for said devices n.
and means for continuously relatively gyrating all of said devices and said element about dierent axes to successively establish communication between said supply means and said devices.
17. In a filling machine, a plurality of "iis measuring devices, an element constituting a wall for said devices and having discharge orifices, and means for continuously rela tively gyrating all ofv said devices and said element about .different axes to successively establish communication between said all of said devices said su ply means and said devices, and means or relatively reciprocating said devices and said members during said gyration.
19. In a filling machine, a plurality of measuring devices, a displacement member associated with each of said devices, an element constituting a wall for said devices and having discharge orifices, means for simultaneously relatively gyrating all of said devices and said element about different axes to successively establish communication between said discharge orifices and said devices, and means for relatively reciprocatin said devices and said members during sai gyration. v
20. In a filling machine, a plurality of measuring devices movable about an axis, a displacement member within each of said devices, an element movable about a different axis and roviding a closure for said devices, said ement havingdischarge orifices, means for rotating said devices and said element about said axes to successively establish communication between said discharge orifices and said devices, and means for relatively reciprocating said devices and said members during said rotation.
21. In a Iillin machine, material supply means, a plura ity of measuring devices movable about an axis, a displacement memberwithin each of said devices, an element movable about a dierent axis to provide a closure for said devices, means for rotating said devices and said element about said axes to successively establish communication between said supply means and said devices and means for relatively reciprocatin sai 1devices and said members during sai rotaion.
22. In a filling machine, material su ply,
means, a measurin device movable a ut an axis, a cut-off e ement movable in proximity to said device about a diierent arallel axis, said element havingva `disc r e orifice, drivin means connecting said e ement and sai device, and means for positively rotating said element to simultaneously revolve said device and said element about said axes whereby communication is alternately established between said supply means and said device and between said device and said dischar orifice.
23. In a filling machine, material su ply means, va measurin device movable a out antaxis, a cut-0E ciment movable in proximi driving means connecting said element and said device, and means for ositively rotating said element `to simu taneously revolve said device and said element about said axes whereby communication is established between said supply means and said device.
24. In a filling machine, a measuring de- I vice movable about an axis, a cut-0E element to said device about a dierent axis,`
movable in proximity to said device about a different parallel axis, said element having a discharge orifice, drivi means connecting said e ement and said evice, and means for positively rotating said element to simultaneously revolve said device and said element about said axes whereby communication is established between said device and said dischar e orifice.
25. In a lling machine, a measuring device, an element in proximity to said device, means for continuousl rotating one of said members, and a movab e link associated with both of and located within said members for transmitting the continuousV rotary movement of the one to the other.
26.' In a lling machine, a measuring device, an element in proximity to said device,-
means for continuously rotating one of said members, and a plurality of arallel movable links associated with bo of and located within said members for producin relative continuousgyration between sai members.
27. In a filling machine, a vmeasuring dev vice, an element in proximity to said device, means for continuously rotating said element, and a plurality of parallel movable links associated with both said device and said element for communicating continuous rotary motion from said element to s'aid device, said links being located within said element.
28. In a llin machine, a measuring d evice, a cut-o e ement in proximity to said device, means for rotatintg said element, and a movable link associate with both of said members for transmittin rotary motion from said element to said evice.
29. In a filling machine, a measuring device having an axis,an element constituting a wall for said device having a parallel axi means for continuously rotating one of sai members, and a link associated with both of said members for transmitting continuous rotary motion from one of sai members to the other about said axes.
30. In a filling machine, a measuring device having an axis, an element constituting a wall for said device having a parallel axis, means for continuously rotating said element about its axis, and a plurality of parallel links associated with both said device and said element for communicating rotary motion from said element to produce continuous rotation of said device about its axis.
y 31 In a filling machine, a measuring device having an axis, an element constituting a wall for said device and movable about a parallel axis, means for continuously rotating one of said members, and a associated being movable in a plane'perpendicular to said axes to transmit continuous rotary motion from one of said members to the other.:v
susl
with both of said members, said link fj 32. In a filling machine, a measuring de- 'ice having an axis, an element constituting L Wall for said device and movable about a xarallel axis, means for continuousl rotatni said element about its axis, an a plura 'ty ofparallel links associated with both said device and said element, said links being movable in 151m pel-panama m id axes to commumcate rota said element whereby said motion from evice 1s contln- 10 uously rotated about its axis.
In testimon whereof,xthe signature of the inventor is a ed here OSWALD H. HANSEN.
US1490923D hansen Expired - Lifetime US1490923A (en)

Publications (1)

Publication Number Publication Date
US1490923A true US1490923A (en) 1924-04-22

Family

ID=3406524

Family Applications (1)

Application Number Title Priority Date Filing Date
US1490923D Expired - Lifetime US1490923A (en) hansen

Country Status (1)

Country Link
US (1) US1490923A (en)

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2433061A (en) * 1943-07-23 1947-12-23 Continental Can Co Apparatus for filling containers with measured charges of material
US2745584A (en) * 1951-10-09 1956-05-15 Unilever Ltd Fluid filling machine
US2896676A (en) * 1956-01-16 1959-07-28 Chemetron Corp Container filling machine
US3066830A (en) * 1958-02-24 1962-12-04 Valspar Corp Dispensing machine
US3087517A (en) * 1959-12-21 1963-04-30 Magnuson Eng Inc Liquid filling machine and method
US5960838A (en) * 1998-02-27 1999-10-05 Crown Simplimatic Incorporated Valve for adjustable filling chamber
US6820337B2 (en) * 2000-12-21 2004-11-23 Airbus France Process for making a panel with a protected acoustic damping layer and acoustic panel as made
US20120114509A1 (en) * 2009-05-08 2012-05-10 Ima Life S.R.L. Dosing Apparatus with a Joint Arrangement
US20120132318A1 (en) * 2009-05-08 2012-05-31 Ima Life S.R.L. Dosing apparatus
US20120168465A1 (en) * 2009-05-08 2012-07-05 Ima Life S.R.L. Dosing Unit for CIP/SIP
US10066548B2 (en) 2013-03-15 2018-09-04 United Technologies Corporation Acoustic liner with varied properties

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2433061A (en) * 1943-07-23 1947-12-23 Continental Can Co Apparatus for filling containers with measured charges of material
US2745584A (en) * 1951-10-09 1956-05-15 Unilever Ltd Fluid filling machine
US2896676A (en) * 1956-01-16 1959-07-28 Chemetron Corp Container filling machine
US3066830A (en) * 1958-02-24 1962-12-04 Valspar Corp Dispensing machine
US3087517A (en) * 1959-12-21 1963-04-30 Magnuson Eng Inc Liquid filling machine and method
US5960838A (en) * 1998-02-27 1999-10-05 Crown Simplimatic Incorporated Valve for adjustable filling chamber
US6820337B2 (en) * 2000-12-21 2004-11-23 Airbus France Process for making a panel with a protected acoustic damping layer and acoustic panel as made
US20120114509A1 (en) * 2009-05-08 2012-05-10 Ima Life S.R.L. Dosing Apparatus with a Joint Arrangement
US20120132318A1 (en) * 2009-05-08 2012-05-31 Ima Life S.R.L. Dosing apparatus
US20120168465A1 (en) * 2009-05-08 2012-07-05 Ima Life S.R.L. Dosing Unit for CIP/SIP
US8915405B2 (en) * 2009-05-08 2014-12-23 Ima Life S.R.L. Dosing apparatus
US8915404B2 (en) * 2009-05-08 2014-12-23 Ima Life S.R.L. Dosing apparatus with a joint arrangement
US8944291B2 (en) * 2009-05-08 2015-02-03 Ima Life, S.R.L. Dosing unit for CIP/SIP
US10066548B2 (en) 2013-03-15 2018-09-04 United Technologies Corporation Acoustic liner with varied properties
USRE48980E1 (en) 2013-03-15 2022-03-22 Raytheon Technologies Corporation Acoustic liner with varied properties

Similar Documents

Publication Publication Date Title
US1490923A (en) hansen
US1226108A (en) Measuring and mixing device.
US5529099A (en) Apparatus for metering and filling flowable viscous or pasty products into containers
US2857082A (en) Pump construction for candy depositing machines
US2709538A (en) Filling machine
US1700494A (en) Filling machine
US1696099A (en) Cake forming and depositing machine
US2553250A (en) Apparatus for filling containers with ice cream or the like
US3072303A (en) Filling device
US2152339A (en) Method of and apparatus for packaging materials
US1993367A (en) Filling machine
US3351250A (en) Valve for viscous fluids
US1795312A (en) Filling machine
US2917272A (en) Apparatus for dispensing heavy consistency fluid
US3550648A (en) Method and apparatus for filling multiple cavity containers with measured charges of liquid
US2934101A (en) Product metering apparatus and method
US1451512A (en) Measuring apparatus
US2220707A (en) Receptacle filling machine
US1499366A (en) Can-filling machine
US2303822A (en) Receptacle filler
US2757844A (en) Apparatus for filling containers with fluid material
US1896210A (en) Filling and measuring machine
US1367259A (en) Can-filling machine
US1708482A (en) Apparatus for
US1502110A (en) Ice-cream-bricking machine