US2061180A - Assembly mechanism for can and cover washing machines - Google Patents

Assembly mechanism for can and cover washing machines Download PDF

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Publication number
US2061180A
US2061180A US601397A US60139732A US2061180A US 2061180 A US2061180 A US 2061180A US 601397 A US601397 A US 601397A US 60139732 A US60139732 A US 60139732A US 2061180 A US2061180 A US 2061180A
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United States
Prior art keywords
cover
lever
covers
washing machines
assembly mechanism
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Expired - Lifetime
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US601397A
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Lester J Williams
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CARL BRAUN Inc
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CARL BRAUN Inc
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Priority to US601397A priority Critical patent/US2061180A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/08Cleaning containers, e.g. tanks
    • B08B9/0839Cleaning milk churns
    • B08B9/0843Cleaning milk churns for large numbers of milk churns

Definitions

  • This invention relates to can and cover washing. mechanism and more-especially to improved mechanismfor delivering the covers after washing upon the tops of milk can bodies'which have been advanced and washed in generally parallel relation to the covers and then moved to a positionto receive a cover and the can bottom subjected to afinal rinsing, to remove the matter'accumulated when the can is moved to cover-receiving position, after which the can with its applied cover is pushed from the platform.
  • the present invention is a continuation in part of the application of Lester J. Williams, Serial No. 468,184 filed July 15, 1930, and patented Oc- 5:-.tober 22-, 1935, as Patent Number 2,017,880, which relates more particularly to the mechanism for advancing and washing the cans and covers, while the present invention has more special reference tothe mechanism for assembling the can and coversand rinsing the can bottom on a delivery. platform.
  • Fig. 1 is a partial side elevation of the invention showing more particularly the manner in ,;which the can coversare advanced and applied to the cans and the cans finally rinsed.
  • Fig. 2 is a section of Fig. 1 on the line 2-2.
  • Fig. 3 is an enlarged fragmentary top plan view of theplatform. andmechanism for applying the finalrinsing to the can bottom.
  • Fig. 4 is a side elevation of the mechanism shown in Fig. 3, and
  • Fig. 5 is a section of Fig. 3 on the line 5--5 with a fragmentary can in position to receive the final rinsing.
  • the can bodies are .advanced in a linear direction and the can tops are advanced in a generally similar manner and in a parallel path at one side of the path of the can bodies, as disclosed in the copending application, Serial Number 468,184.
  • this slide has pivotally mounted feed pawls or pushers I3 extending laterally, and when the slide is reciprocated in the forward direction advance the covers, and when reciprocated in the oppositedirection snap past the collars of the next rearward covers andre-engage with them for further advance; and in an obvious way, re-, turn movement of the covers is prevented.
  • the can covers are also definitely retained in washing positions by pawls or detents, consisting as here shown of the angular portions M of bars l5 which may be pivotally connected or loosely,
  • detent bars mounted and held by stops between longitudinal rails l6 supported on the cross members of the U-brackets I'I.
  • These detent bars also have upwardly extending portions l8 provided with weights I 9, so that the angular portions of the detents are held in engagement with the can collars and force these collars down into the depressions or notches 20 and into engagement with suitable, levers. controlling the washing of the covers; and when the covers are advanced the detents are raised to permit such movement and drop behind the covers preventing return movement.
  • the manner in which the cans and covers are advanced is more particularly the subject matter of the copending application.
  • each cover passes beyond the last detent bar- 15' it is brought opposite a pushing or" tilting.
  • member 22 carried by a short horizontal arm removably oradjustably secured to the upper end of a lever 25fulcrumed at 26 on a frame upright 27.
  • the: cover is also located above a tilting plate or table 29 which is pivotally mounted at 38 on a bracket secured to the main frame.
  • lever 25 When the cover is brought over the tilt,- ing table, lever 25 is oscillated (by means to be described) whereupon the pushing or tilting member 22 engages the upper portion of the top and tilts the cover so that it falls by gravity in right-sideup position on the tilting table and then in the next action of the machine the table 29 is tilted and the cover slides by gravity down upon the top of a can body 32 which has been washed and moved laterally in right-side-up position to receive the cover by means also to be described.
  • a primary driving member in the form of a transverse shaft 33 which may itself be driven in any convenient way and connected to the primary driven shaft by a suitable gearing.
  • a crank 31 On one end of the main drive shaft is a crank 31 connected to a link 38 at 5
  • the upper end of this oscillating frame is connected, as by links 4
  • This frame is also connected by means of an angularly located link 42 (best shown in Fig.
  • Lever 43 has a curved end 4'! to engage a segment of the can body and when the can body is in final position, it is brought against the transversely directed end portion 48 of a locating and ejecting bar 49 which is mounted to reciprocate, longitudinally of the machine, in guide 50 and affords means to position the can and to eject the can and cover as will be readily understood.
  • Link 38 above referred to, for oscillating frame 39 is connected to a transverse bar 52 in the frame, and the inwardly extending end 53 of this bar is connected by a link 54 to the lower end of an upright lever 55.
  • This lever is fulcrumed at 56 on a frame bracket 57 and its upper end is connected by a link 58 to the can cover feed slide it! so that the can covers are advanced, step by step, coordinately with the can bodies moving in a parallel line.
  • Lever is also connected by a short link 59 to the upper end of another upright lever 60, fulcrumed at 6
  • the main drive shaft 33 has a cam 63 cooperating with a cam roll 64 on one end of a lever 65 fulcrumed at El and connected at its rearward end by an adjustable link 51 to the tilting table at 68 so that the table is oscillated at proper times in relation to the cover feed movements.
  • the lever 25 carrying the push member 22 to tilt the covers to horizontal position is operated by lever 43 through a push rod 69 pivotally connected to the lower end of lever 25 .at 10.
  • This push rod is guided in a hole in a bracket H and its end is engaged by a flange 12 on lever 43 and held in such engagement by a spring 13 so that when lever 43 is oscillated to position the can body, as shown in Fig. 2, the tilting member 22 is also actuated to tilt the can cover to horizontal position on table 29 and the table is then actuated as previously referred to and shown in Fig. 1 to deliver the cover on top of a can body.
  • the table 45 has a preferably circular opening 14 located in the final position to which the can is brought on operation of lever 43 and slight movement of push rod 49, and is of smaller diameter than the diameter of the can. Below this opening and preferably concentric therewith there is located a spray nozzle having a spray head 15 and an inlet 15, the spray nozzle being supported for instance in a frame 11 secured to the bottom of table 45 in any convenient manner, the spray nozzle 15 being so located that when its valve is opened, the spray will pass through the opening 14 and rinse the can bottom to remove the slime from the can bottom picked up on platform 45.
  • the spray from nozzle 15 is controlled by an arm 18 having a portion projecting above the platform 45 and which is depressed to a position where the valve is opened as the can is swept by the arm 43 from its position opposite to the mechanism for advancing the can bodies and brought to a position over the spray nozzle as will be readily understood from Figs. 1, 2 and 4.
  • the can in righted position with its applied cover is, after rinsing the can bottom, pushed from platform 45.

Description

Nov. 17, 1936. 1.. J. WILLIAMS ASSEMBLY MECHANISM FOR CAN AND COVER WASHING MACHINES Filed March 26, 1932' s Sheets-Sheet 1 INVENTOR I 1557f? J Mill/7M6.
% A off Nov. 17, 1936. J. WILLIAMS ASSEMBLY MECHANISM FOR CAN AND COVER WASHING MACHINES Filed March 26, 1952 3 Sheets-Sheet 2 INVENTOR MSTAF'F/ lV/[l/fl/VS BY 61% a ATTORNEY Nov. 17, 1936. w s 2,061,180
ASSEMBLY MECHANISM FOR CAN AND COVER WASHING MACHINES Filed March 26, 1952 s Sheets-Sheet 3 ATTORNEY Patented Nov. 17, 1936 UNI TE D STATES PATENT OFFICE ASSEMBLY MECHANISM FOR CAN AND COVER WASHING MACHINES tion of New York Application March 26,
1 Claim.
This invention relates to can and cover washing. mechanism and more-especially to improved mechanismfor delivering the covers after washing upon the tops of milk can bodies'which have been advanced and washed in generally parallel relation to the covers and then moved to a positionto receive a cover and the can bottom subjected to afinal rinsing, to remove the matter'accumulated when the can is moved to cover-receiving position, after which the can with its applied cover is pushed from the platform.
The present invention is a continuation in part of the application of Lester J. Williams, Serial No. 468,184 filed July 15, 1930, and patented Oc- 5:-.tober 22-, 1935, as Patent Number 2,017,880, which relates more particularly to the mechanism for advancing and washing the cans and covers, while the present invention has more special reference tothe mechanism for assembling the can and coversand rinsing the can bottom on a delivery. platform.
While one embodiment of the invention is shown in the drawings accompanying this application and forming partthereof, it is to be under- 3 stood that such embodiment is merely illustrative of the underlying principles of the invention so as to afford a clear understanding of the principles ofthe invention to those skilled in the art and is not intended as limiting the invention to the. specific forms of mechanism disclosed herein.
In saiddrawings:
Fig. 1 is a partial side elevation of the invention showing more particularly the manner in ,;which the can coversare advanced and applied to the cans and the cans finally rinsed.
Fig. 2 is a section of Fig. 1 on the line 2-2.
Fig. 3 is an enlarged fragmentary top plan view of theplatform. andmechanism for applying the finalrinsing to the can bottom.
Fig. 4 is a side elevation of the mechanism shown in Fig. 3, and
Fig. 5 is a section of Fig. 3 on the line 5--5 with a fragmentary can in position to receive the final rinsing.
Continuing by way of a more detailed description, the can bodies are .advanced in a linear direction and the can tops are advanced in a generally similar manner and in a parallel path at one side of the path of the can bodies, as disclosed in the copending application, Serial Number 468,184.
For advancing the covers step by step from the feed end of the machine in which they may be placed by hand, there is a longitudinal, horizontal slide III which as shown, is of channel 1932, Serial No. 601,397
section, inverted, and slidingly supported by suitable rail and angle brackets. At suitable intervals, corresponding to the spacing of the spray pipes, this slide has pivotally mounted feed pawls or pushers I3 extending laterally, and when the slide is reciprocated in the forward direction advance the covers, and when reciprocated in the oppositedirection snap past the collars of the next rearward covers andre-engage with them for further advance; and in an obvious way, re-, turn movement of the covers is prevented. The can covers are also definitely retained in washing positions by pawls or detents, consisting as here shown of the angular portions M of bars l5 which may be pivotally connected or loosely,
mounted and held by stops between longitudinal rails l6 supported on the cross members of the U-brackets I'I. These detent bars also have upwardly extending portions l8 provided with weights I 9, so that the angular portions of the detents are held in engagement with the can collars and force these collars down into the depressions or notches 20 and into engagement with suitable, levers. controlling the washing of the covers; and when the covers are advanced the detents are raised to permit such movement and drop behind the covers preventing return movement. The manner in which the cans and covers are advanced is more particularly the subject matter of the copending application.
As each cover passes beyond the last detent bar- 15' it is brought opposite a pushing or" tilting. member 22 carried by a short horizontal arm removably oradjustably secured to the upper end of a lever 25fulcrumed at 26 on a frame upright 27. At this time the: cover is also located above a tilting plate or table 29 which is pivotally mounted at 38 on a bracket secured to the main frame. When the cover is brought over the tilt,- ing table, lever 25 is oscillated (by means to be described) whereupon the pushing or tilting member 22 engages the upper portion of the top and tilts the cover so that it falls by gravity in right-sideup position on the tilting table and then in the next action of the machine the table 29 is tilted and the cover slides by gravity down upon the top of a can body 32 which has been washed and moved laterally in right-side-up position to receive the cover by means also to be described.
For operation of the various feeding or can body and cover handling devices, there is a primary driving member in the form of a transverse shaft 33 which may itself be driven in any convenient way and connected to the primary driven shaft by a suitable gearing. On one end of the main drive shaft is a crank 31 connected to a link 38 at 5| and thereby to an oscillating frame 39 pivotally mounted at 40 in a position below the line of advance of the can bodies. The upper end of this oscillating frame is connected, as by links 4| to slides or other devices for advancing the can bodies. This frame is also connected by means of an angularly located link 42 (best shown in Fig. 2) to a lever 43 fulcrumed at 44 and arranged to swing in a horizontal plane to sweep the can bodies which have been righted laterally to a position below the tilting table 29 above referred to. In this lateral movement the can bodies slide in right-side-up position on a table 45 at the discharge end of the machine. Lever 43 has a curved end 4'! to engage a segment of the can body and when the can body is in final position, it is brought against the transversely directed end portion 48 of a locating and ejecting bar 49 which is mounted to reciprocate, longitudinally of the machine, in guide 50 and affords means to position the can and to eject the can and cover as will be readily understood.
Link 38 above referred to, for oscillating frame 39 is connected to a transverse bar 52 in the frame, and the inwardly extending end 53 of this bar is connected by a link 54 to the lower end of an upright lever 55. This lever is fulcrumed at 56 on a frame bracket 57 and its upper end is connected by a link 58 to the can cover feed slide it! so that the can covers are advanced, step by step, coordinately with the can bodies moving in a parallel line. Lever is also connected by a short link 59 to the upper end of another upright lever 60, fulcrumed at 6| and having its lower end connected by a link 62 to the push rod :39 so that that rod is reciprocated, in proper relation to the feed actions, whereupon the angularly bent locating and pushing member 48 of the rod positions the can over the final rinsing unit and then ejects the can body with the cover located thereon rearwardly from the table 45.
For operating the tilting table 29, the main drive shaft 33 has a cam 63 cooperating with a cam roll 64 on one end of a lever 65 fulcrumed at El and connected at its rearward end by an adjustable link 51 to the tilting table at 68 so that the table is oscillated at proper times in relation to the cover feed movements.
The lever 25 carrying the push member 22 to tilt the covers to horizontal position, is operated by lever 43 through a push rod 69 pivotally connected to the lower end of lever 25 .at 10. This push rod is guided in a hole in a bracket H and its end is engaged by a flange 12 on lever 43 and held in such engagement by a spring 13 so that when lever 43 is oscillated to position the can body, as shown in Fig. 2, the tilting member 22 is also actuated to tilt the can cover to horizontal position on table 29 and the table is then actuated as previously referred to and shown in Fig. 1 to deliver the cover on top of a can body.
The table 45 has a preferably circular opening 14 located in the final position to which the can is brought on operation of lever 43 and slight movement of push rod 49, and is of smaller diameter than the diameter of the can. Below this opening and preferably concentric therewith there is located a spray nozzle having a spray head 15 and an inlet 15, the spray nozzle being supported for instance in a frame 11 secured to the bottom of table 45 in any convenient manner, the spray nozzle 15 being so located that when its valve is opened, the spray will pass through the opening 14 and rinse the can bottom to remove the slime from the can bottom picked up on platform 45. The spray from nozzle 15 is controlled by an arm 18 having a portion projecting above the platform 45 and which is depressed to a position where the valve is opened as the can is swept by the arm 43 from its position opposite to the mechanism for advancing the can bodies and brought to a position over the spray nozzle as will be readily understood from Figs. 1, 2 and 4. The can in righted position with its applied cover is, after rinsing the can bottom, pushed from platform 45.
I claim:
In a machine of the character described, the combination of means to advance a plurality of inverted cans in horizontal rectilinear direction, a horizontal platform located below the line of advancing can tops of the inverted cans for receiving said cans in upright position and having a can bottom washing opening, means to advance a line of covers, means comprising a can engaging arm having a curved end to sweep a can in upright position across the platform to a position over said opening to receive a cover, means to drop one of said covers on the can in said position, a spray nozzle centered below said opening and having a valve lever, the nozzle being of an appreciably less horizontal area than said opening and having angled discharge apertures to wash the,
entire surface of the bottom of the can through said opening when the can is over said opening,
said lever extending into the path of the can being swept across the platform to be engaged thereby,
US601397A 1932-03-26 1932-03-26 Assembly mechanism for can and cover washing machines Expired - Lifetime US2061180A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437757A (en) * 1940-10-14 1948-03-16 Lathrop Paulson Co Can treating device
US2522310A (en) * 1948-07-28 1950-09-12 Rice & Adams Corp Can washer
US2621667A (en) * 1946-11-08 1952-12-16 Lathrop Paulson Co Container washing apparatus
US2810927A (en) * 1952-11-04 1957-10-29 Swift & Co Poultry back scalder

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437757A (en) * 1940-10-14 1948-03-16 Lathrop Paulson Co Can treating device
US2621667A (en) * 1946-11-08 1952-12-16 Lathrop Paulson Co Container washing apparatus
US2522310A (en) * 1948-07-28 1950-09-12 Rice & Adams Corp Can washer
US2810927A (en) * 1952-11-04 1957-10-29 Swift & Co Poultry back scalder

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