US2152244A - Conveyer for cans and can covers - Google Patents

Conveyer for cans and can covers Download PDF

Info

Publication number
US2152244A
US2152244A US34281A US3428135A US2152244A US 2152244 A US2152244 A US 2152244A US 34281 A US34281 A US 34281A US 3428135 A US3428135 A US 3428135A US 2152244 A US2152244 A US 2152244A
Authority
US
United States
Prior art keywords
cover
covers
station
machine
cans
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
US34281A
Inventor
Edward C Damrow
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US34281A priority Critical patent/US2152244A/en
Application granted granted Critical
Publication of US2152244A publication Critical patent/US2152244A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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 belongs to the milk-can washing art.
  • the principal object is to provide a machine in which milk-cans and milk-can covers are moved 5 automatically by a step by step progression simultaneously through the machine and subjected at each pause in their progression, successively, to a pre-rinsing, a treatment by a cleansing solution, another rinsing, a steam sterilization and a cold air drying, after which the can and its accompanying cover pass out of the machine; the can is upended into its proper upright position, a workman places the cover on the can and the covered can is delivered by the machine to an off-bearing conveyer.
  • the machine is so constructed that a plurality of can covers are held in a can-cover run-Way unacted upon until a can is fed into the machine for treatment, upon which the presence of the tion so actuates the mechanism that thereafter the machine automatically feeds forward with the can a companion cover and both the can and its cover progress step by step through the machine and both receive the same cleaning treatment, simultaneously.
  • the can covers are moved forwardly only when there are companion cans accompanying them. Hence, if but one can is fed into the machine, it and its companion cover will progress step by step until the entire cleaning process is performed upon them, but the machine will deliver rinsing water, cleansing solution, sterilizing steam and drying air only at those stations where the can and its cover pause in their step by step progress through the machine; meanwhile any other can covers which have been placed in the can-cover runway will remain there unacted upon until an- 40 other can has been placed in the pre-rinsing station and then when the new can is fed forwardly by the machine a companion cover is taken with it.
  • Fig. 2 is an elevation of the feeding-in end of the machine, the tanks being removed to permit the driving mechanism to be seen at the far end of the machine;
  • Fig. 3 is an elevation of a portion of the cancover run-way
  • Fig. 4 is a plan view of the parts illustrated in Fig. 3;
  • Fig. 5 is a sectional view taken on the line ill-Ill of Fig. 3;
  • Fig. 6 is a plan view of the can track pawl-slide 9;
  • Fig. 7 is an elevation view of the can cover race-way.
  • Fig. 8 is a plan view of the can cover race-way.
  • the working parts of my machine are supported by a frame composed of upright corner posts i, cross bars 2, and longitudinal stringers 3.
  • Milk cans A, and milk can covers B are fed into the machine at the left-hand end (Fig. 1) and are propelled through the machine, simultaneously, by a step .by step progression and delivered at the right-hand end.
  • the milk cans A are fed in upside down or in an inverted position upon a track which is composed of slats 4 and a steam plate 4', Fig. 6.
  • the milk can covers B are supported upon a run-way 5, above the cans.
  • Run-way 5 extends the full length of the machine and at its entrance end it is upwardly inclined so the can covers roll down the inclined portion by gravity.
  • run-Way 5 serves as a storage place for can covers. It is shown of a length sufiicient to accommodate four can covers; but it may be made longer or shorter, if desired.
  • the can covers B remain stored in the upwardly inclined portion of run-way 5 until the first or forward can cover is positively pulled out of the notch 6 which constitutes station P, whereupon the second can cover rolls down, strikes stop 1 and comes to rest in the notch 6 which is designated station P, the preceding cover having been positively moved to the second notch 5 or station Q.
  • the positive step by step feeding or moving of the cans A and the can covers B forwardly from station to station is done by two pawl or dog carrying slides 8 and 9, connected by a rigid upright bar I6, (Fig. 1).
  • Bar [5 is given a slow forward and backward movement suificient in extent to drag a can A and its companion cover B from one station to the next station by a motor I I.
  • Pawl carriers or slides 8 and 9 are each provided with six spring actuated pawls symmetrically spaced the same distance apart the six stations, P. Q. R, S, T, and U are spaced.
  • Pawls or dogs 12, actuated by springs I3, on pawl carrying slide 8, (Figs. 4 and 5) and pawls or dogs l5, actuated by springs 56, on slide 9, (Fig. 6) contact with a cover and a can, respectively, and pull them forwardly from one station to the next station as the slides are moved towards the right (Fig. 1); but on their return from right to left, the dogs are folded back against the action of their springs when they contact the next cover or can, respectively, but as soon as the slides move towards the left sufficiently far for the ends of the pawls to escape the can covers and the cans, springs l3 and [6 swing pawls I2 and I5, respectively, to their operative positions against their stops I! and 18, (Figs. 4 and 5) ready to engage a can and a cover on their next movement towards the right and drag them to the next station in their progress through the machine.
  • the first pawl I2 is inactive. All the other pawls on both slides 8 and 9 are normally active. The first pawl I2 is rendered active every time a can is placed in station P.
  • the construction which governs the operation of the first pawl I2, is as follows:
  • a folding or release angle 22 normally drops down into the path of the first pawl l2 and folds it back and holds it so that its spring l3 cannot swing it into operative positon to grasp a cover at the first or station P.
  • Release angle 22 (Figs. 4 and 5) is fixed to bars 23 which, at their other ends are fixed to a shaft 24.
  • a cover release rod 25 is fixed, and on cover release rod 25 is adjustably attached a cover release trip 26, so positioned that it is operated by any milk can located at station P.
  • Can covers B and cans A are fed into the machine at the left hand end (Fig. 1).
  • the covers B and the cans A are given a pre-rinsing at station P and, afterwards, by a step by step progression through the machine they are stopped at stations Q, R, S, T, and U, where they are given treatment by a solution wash at station Q, a hot water rinse at station R, two sterilizing treatments at stations S and T, and a cold air drying at station U and then discharged from the machine.
  • the can and its companion cover are under treatment during the time required to move the pawls to the left sufliciently to engage the next succeeding can and can cover; and this period of time may be varied as desired by the reduction gearing introduced between the prime mover and the slides.
  • adjustable as to length, is connected to upright rigid bar [0 at one of its ends, and at its other end it is connected to an oscillatable lever 30. Motion is given to lever 30 by a crank arm I02 which is fixed to and revolves with a shaft I03. At its outer end crank I02 is connected to a. sliding boxing HJI which surrounds lever 30 and slides lengthwise thereof. Lever 30 is oscillatably mounted at its lower end to cross shaft I 00 carried by the lower longitudinal stringers 3 of the machine frame.
  • the cover release angle 22 drops back into its normal position and folds back the first pawl l2, out of can cover contacting position.
  • This first pawl I2 is held inactive until another can has been placed at station P. If no other can is fed into the machine, it continues to operate upon the cans and can covers, already started through, in the usual step by step way, until they are cleansed and discharged from the machine at the right hand end. When, however, the machine is operated to capacity, and a continuous series of cans and can covers is fed.
  • a good and inexpensive way to provide rubber cushioning covers for rod 33 and rods 35 is to by a connecting rod 21 which is pivotally connected at its other end to the sliding box ml at the point I04.
  • Can covers are not always uniform in thickness or depth and, for that reason, some of them, as they are forcibly drawn from one notch 6 to the next notch 6, travel irregularly or wabble, and instead of rolling easily take an angular position in the race-way and, because of their rubbing on the different bars of which the race-way is composed, sometimes offer considerable unnecessary resistance to the mechanism which pulls them along and sometimes badly dented can covers will stop the machine.
  • a friction clutch adjusted to slip and prevent breaking of any part of the machine when but a small amount of excess power is required, I employ the can cover righting device shown in Figs. 7 and 8 to right the can covers and keep them in freely rolling position to reduce the resistance to a minimum.
  • a can cover righting device may be employed at every station notch 6, if desired, but in Figs. '7 and 8 only two can cover righting devices are illustrated which are ample to explain their location, construction and operation.
  • a pivoted vertical rod or bar 93 having a weighted part 94 projecting transversely under the race-way.
  • Bar 93 is pivoted to the outer side of the race-way as shown at 95, or in any other well known way so that it can be swung freely upon its pivots by weight 94.
  • At its upper end bar 93 is curved forwardly as at 96 and then projects in the direction of the travel of the can covers, parallelly, above the race-way, as at 91.
  • the part or weight 94 extending under the race-way 5 serves as a gravity balance weight to hold the can cover, lightly, in an upright position onits rim, against an inner plate of the race-way and thus prevents any wabbling or binding of the can cover.
  • can-dragging pawls i5 are held by their stops l8 inclined towards the direction of travel of the cans; best shown in Fig. 6. The reason for this is that so positioned, they crowd the cans toward the side upon which pawl-slide 9 is located and hold the rim of the can under guide rail 2i, and keep the can from tipping during its passage through the machine.
  • a can cover is placed in the upwardly inclined storage or hopper space of run-way 5. It rolls down, drops into the first notch 6 or station. P, and its momentum is checked by stop .1, whichprevents it bounding out of the station P notch.
  • pawl slides 8 and 9 make another trip towards the right, they haul two can covers and two cans one step to the right, leaving a can and a can cover in station R and another can and a can cover in station Q, and as soon as the can cover which was in station P is dragged out, another can cover immediately rolls into the then empty station P. At the same time the atendant places another can in station P.
  • the can in advance tips and slides down plate 32, strikes rubber covered rod 33, and falls upon rubber covered cradle arms 35.
  • the can cover is taken by an attendant who puts it upon the can as soon as the can is uprighted by cradle arms 35 and set upon an ofi-bearing conveyer provided at this point.
  • the can cover is received by a can cover replacing machine, which puts the cover on the companion can as soon as the can is set in an upright position by the cradle arms 35.
  • a reciprocating feeder for the cans In conveying mechanism for cans and can covers in a milk can and milk can cover washing machine the combination of a reciprocating feeder for the cans, a reciprocating feeder for the can covers located above the can feeder, means for rigidly connecting the two feeders so they will move simultaneously in the same direction, a separate trackway for each feeder, means for reciprocating the feeders along their respective trackways, a series of spring actuated pawls on each feeder, means for preventing the initial forward feeding of a can cover excepting simultaneously with its companion can comprising a longitudinally disposed bafiiing angle plate to form a raceway in which the first can cover feeding pawl folds and reciprocates, an oscillatable shaft, an arm connecting the shaft and the angle plate, a depending actuating rodfixed to the shaft, an adjustable wiper fixed to the depending rod in the line of travel of the cans to be pushed aside by a can in initial feeding position whereby the shaft is oscillated and the baffling angle plate is lifted to permit the first can

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Refuse Collection And Transfer (AREA)

Description

March 28, c DAMROW CONVEYER FOR CANS AND CAN COVERS Original Filed Aug. 1, 1935 5 Sheets-Sheet l March 28, 1939. E. c. DAMROW 2,152,244
CONVEYER FOR CANS AND CAN COVERS Original Filed Aug. 1, 1935 5 Sheets-Sheet 2 Edward CDarpr'ou) March 28, 1939. E. c. DAMROW CONVEYER FOR CANS AND CAN COVERS Original Filed Aug. 1, 1935 5 Sheets-Sheet 3 idward C. :Da grouD March 28, 1939.
CONVEYER FOR CANS AND CAN COVERS Original Filed Aug. 1, 1935 5 Sheets-Sheet 4 i 3mm I Edw rd Dm mw E. c. DAMROW 2,152,244
March 28, .1939. c, DAMROW I CONVEYER FOR CANS AND CAN COVERS Original Filed Aug. 1, 1935 5 Sheets-Sheet 5 INVENTOR Edward CD119 r'ou) ATTORNEY Patented Mar. 28, 1939 UNITED ST eTENT OFFICE Application August 1,
1935, Serial No. 34,281
1 Renewed January 21, 1939 2 Claims.
This invention belongs to the milk-can washing art.
The principal object is to provide a machine in which milk-cans and milk-can covers are moved 5 automatically by a step by step progression simultaneously through the machine and subjected at each pause in their progression, successively, to a pre-rinsing, a treatment by a cleansing solution, another rinsing, a steam sterilization and a cold air drying, after which the can and its accompanying cover pass out of the machine; the can is upended into its proper upright position, a workman places the cover on the can and the covered can is delivered by the machine to an off-bearing conveyer.
The machine is so constructed that a plurality of can covers are held in a can-cover run-Way unacted upon until a can is fed into the machine for treatment, upon which the presence of the tion so actuates the mechanism that thereafter the machine automatically feeds forward with the can a companion cover and both the can and its cover progress step by step through the machine and both receive the same cleaning treatment, simultaneously.
It is to be particularly noted that the can covers are moved forwardly only when there are companion cans accompanying them. Hence, if but one can is fed into the machine, it and its companion cover will progress step by step until the entire cleaning process is performed upon them, but the machine will deliver rinsing water, cleansing solution, sterilizing steam and drying air only at those stations where the can and its cover pause in their step by step progress through the machine; meanwhile any other can covers which have been placed in the can-cover runway will remain there unacted upon until an- 40 other can has been placed in the pre-rinsing station and then when the new can is fed forwardly by the machine a companion cover is taken with it.
In order that the construction and the operation of my invention may be fully understood I file herewith, to form part of this specification 5 sheets of drawings illustrating the best construction now known by me for practicing my invention, in which Figure 1 is a right-hand side elevation of the entire machine;
Fig. 2 is an elevation of the feeding-in end of the machine, the tanks being removed to permit the driving mechanism to be seen at the far end of the machine;
can to be treated in the first, or pre-rinsing sta-.
Fig. 3 is an elevation of a portion of the cancover run-way;
Fig. 4 is a plan view of the parts illustrated in Fig. 3;
Fig. 5 is a sectional view taken on the line ill-Ill of Fig. 3;
Fig. 6 is a plan view of the can track pawl-slide 9;
Fig. 7 is an elevation view of the can cover race-way; and
Fig. 8 is a plan view of the can cover race-way.
Throughout the several views each particularreference character, wherever found, is applied to the same element.
The working parts of my machine are supported by a frame composed of upright corner posts i, cross bars 2, and longitudinal stringers 3.
Milk cans A, and milk can covers B, are fed into the machine at the left-hand end (Fig. 1) and are propelled through the machine, simultaneously, by a step .by step progression and delivered at the right-hand end.
and the The milk cans A are fed in upside down or in an inverted position upon a track which is composed of slats 4 and a steam plate 4', Fig. 6.
The milk can covers B are supported upon a run-way 5, above the cans.
Run-way 5 extends the full length of the machine and at its entrance end it is upwardly inclined so the can covers roll down the inclined portion by gravity.
There are six notches 6 in run-way 5 into which the can covers B drop and come to rest where they remain until they. are positively drawn out by mechanism provided for that purpose.
These six notches 6 in run-way 5 have been designated as stations by the letters P, Q, R, S, T, and U in the description which follows and they are in registration with the positions occupied by the milk cans A below them while they are undergoing cleansing operations.
The first can cover B fed into the run-way, rolls down the upwardly inclined portion, drops into the first station notch 6 at P and comes to rest against a freely swinging gravity actuated stop 1. (Figs. 1, 3 and 5.)
The upwardly inclined portion of run-Way 5 serves as a storage place for can covers. It is shown of a length sufiicient to accommodate four can covers; but it may be made longer or shorter, if desired.
' The can covers B remain stored in the upwardly inclined portion of run-way 5 until the first or forward can cover is positively pulled out of the notch 6 which constitutes station P, whereupon the second can cover rolls down, strikes stop 1 and comes to rest in the notch 6 which is designated station P, the preceding cover having been positively moved to the second notch 5 or station Q.
The positive step by step feeding or moving of the cans A and the can covers B forwardly from station to station is done by two pawl or dog carrying slides 8 and 9, connected by a rigid upright bar I6, (Fig. 1).
Bar [5 is given a slow forward and backward movement suificient in extent to drag a can A and its companion cover B from one station to the next station by a motor I I.
Pawl carriers or slides 8 and 9 are each provided with six spring actuated pawls symmetrically spaced the same distance apart the six stations, P. Q. R, S, T, and U are spaced.
Pawls or dogs 12, actuated by springs I3, on pawl carrying slide 8, (Figs. 4 and 5) and pawls or dogs l5, actuated by springs 56, on slide 9, (Fig. 6) contact with a cover and a can, respectively, and pull them forwardly from one station to the next station as the slides are moved towards the right (Fig. 1); but on their return from right to left, the dogs are folded back against the action of their springs when they contact the next cover or can, respectively, but as soon as the slides move towards the left sufficiently far for the ends of the pawls to escape the can covers and the cans, springs l3 and [6 swing pawls I2 and I5, respectively, to their operative positions against their stops I! and 18, (Figs. 4 and 5) ready to engage a can and a cover on their next movement towards the right and drag them to the next station in their progress through the machine.
Provision is made for rendering the first pawl l2, on slide 8 inoperative, excepting when there is a milk can located at station P.
In the absence of a milk can at station P the first pawl l 2 strikes an angle plate 22 Fig. 5, every time it moves towards the left and is folded back, against the tension of its spring and held out of operative contact with the can cover located at station P. All the other pawls 52 on slide 8 operate in a normal way so that if there are can covers located at any of the other stations or at all the other stations, Q, R, S, T, and U, they will be moved one station to the right, step by step, every time the slide 8 is moved towards the right.
Normally, the first pawl I2 is inactive. All the other pawls on both slides 8 and 9 are normally active. The first pawl I2 is rendered active every time a can is placed in station P. The construction which governs the operation of the first pawl I2, is as follows:
A folding or release angle 22 normally drops down into the path of the first pawl l2 and folds it back and holds it so that its spring l3 cannot swing it into operative positon to grasp a cover at the first or station P. Release angle 22 (Figs. 4 and 5) is fixed to bars 23 which, at their other ends are fixed to a shaft 24. On shaft 24 a cover release rod 25 is fixed, and on cover release rod 25 is adjustably attached a cover release trip 26, so positioned that it is operated by any milk can located at station P. I
From this construction it happens that when a "milk can is placed in proper pre-rinse position at station P it contacts cover release trip 26 and pushes it aside, which swings cover release rod 25 and oscillates shaft 24 to which bars 23 arefixed; the opposite ends of bars 23 lift release angle 22 sufficiently to permit spring 13 to swing first pawl l2 out against its top H in position to engage can cover B at station P at the next movement towards the right of slides 8 and 9 and can cover B and its companion can A will both be moved to the next station to the right.
Can covers B and cans A are fed into the machine at the left hand end (Fig. 1). The covers B and the cans A are given a pre-rinsing at station P and, afterwards, by a step by step progression through the machine they are stopped at stations Q, R, S, T, and U, where they are given treatment by a solution wash at station Q, a hot water rinse at station R, two sterilizing treatments at stations S and T, and a cold air drying at station U and then discharged from the machine.
Slide 8 with its pawls or dogs l2 gives the step by step movements to can covers B.
Slide 9 with its pawls or dogs [5 gives the step by step movements to cans A.
These two slides B and 9 being connected by upright rigid bar I0, it is obvious that they must move as a unit and, therefore, the cans and the can covers are moved simultaneously from one station to the next station.
At each station the can and its companion cover are under treatment during the time required to move the pawls to the left sufliciently to engage the next succeeding can and can cover; and this period of time may be varied as desired by the reduction gearing introduced between the prime mover and the slides.
A pitman 3|, adjustable as to length, is connected to upright rigid bar [0 at one of its ends, and at its other end it is connected to an oscillatable lever 30. Motion is given to lever 30 by a crank arm I02 which is fixed to and revolves with a shaft I03. At its outer end crank I02 is connected to a. sliding boxing HJI which surrounds lever 30 and slides lengthwise thereof. Lever 30 is oscillatably mounted at its lower end to cross shaft I 00 carried by the lower longitudinal stringers 3 of the machine frame.
As soon as the can is moved forward out of contact with cover release trip 26, the cover release angle 22 drops back into its normal position and folds back the first pawl l2, out of can cover contacting position. This first pawl I2 is held inactive until another can has been placed at station P. If no other can is fed into the machine, it continues to operate upon the cans and can covers, already started through, in the usual step by step way, until they are cleansed and discharged from the machine at the right hand end. When, however, the machine is operated to capacity, and a continuous series of cans and can covers is fed. in, the last can of the series placed at station P will contact cover release trip 26 and thereby lift cover release angle 22, as explained and let pawl l2 swing outward into operating positon and grab another can cover to be moved through the machine, step by step, with its companion can. Thus, while the machine will start cans through without a companion cover, if no covers are supplied to the can cover track 5, it will not start a cover through without a companion can.
When the can is discharged from the machine it tips forwardly and slides down a turn plate, strikes rubber covered rod 33 and falls upon rubber covered cradle rods 35, being guided in its fall by the can guide plates 34.
A good and inexpensive way to provide rubber cushioning covers for rod 33 and rods 35 is to by a connecting rod 21 which is pivotally connected at its other end to the sliding box ml at the point I04.
When slides 8 and 9 are at the limit of their motion towards the right, as shown in Fig. l, the can receiving cradle is in can receiving position, as shown in that view; but when slides 8 and 3 are at the limit. of their movement towards the left, the can receiving cradle rods 35, will have been swung to the position indicated by dotted lines in Fig. 1 and the last can discharged from the machine will have been lifted thereby and deposited in an upright position upon an off-bearing conveyer provided at that point to receive it.
Can covers are not always uniform in thickness or depth and, for that reason, some of them, as they are forcibly drawn from one notch 6 to the next notch 6, travel irregularly or wabble, and instead of rolling easily take an angular position in the race-way and, because of their rubbing on the different bars of which the race-way is composed, sometimes offer considerable unnecessary resistance to the mechanism which pulls them along and sometimes badly dented can covers will stop the machine. As it is desirable to have a friction clutch adjusted to slip and prevent breaking of any part of the machine when but a small amount of excess power is required, I employ the can cover righting device shown in Figs. 7 and 8 to right the can covers and keep them in freely rolling position to reduce the resistance to a minimum.
A can cover righting device may be employed at every station notch 6, if desired, but in Figs. '7 and 8 only two can cover righting devices are illustrated which are ample to explain their location, construction and operation.
On the outside of one of the plates of which the race-way is composed I place a pivoted vertical rod or bar 93 having a weighted part 94 projecting transversely under the race-way. Bar 93 is pivoted to the outer side of the race-way as shown at 95, or in any other well known way so that it can be swung freely upon its pivots by weight 94. At its upper end bar 93 is curved forwardly as at 96 and then projects in the direction of the travel of the can covers, parallelly, above the race-way, as at 91.
When the can cover is dragged out of a notch 6, it comes into contact with the portions 96 and 91 of a can cover righter which it pushes aside against the gentle resistance of weight 94. The part or weight 94 extending under the race-way 5 serves as a gravity balance weight to hold the can cover, lightly, in an upright position onits rim, against an inner plate of the race-way and thus prevents any wabbling or binding of the can cover.
It will be observed that can-dragging pawls i5 are held by their stops l8 inclined towards the direction of travel of the cans; best shown in Fig. 6. The reason for this is that so positioned, they crowd the cans toward the side upon which pawl-slide 9 is located and hold the rim of the can under guide rail 2i, and keep the can from tipping during its passage through the machine.
The operation is as follows:
A can cover is placed in the upwardly inclined storage or hopper space of run-way 5. It rolls down, drops into the first notch 6 or station. P, and its momentum is checked by stop .1, whichprevents it bounding out of the station P notch.
in the run-way.-
Three more can covers are then placed in the storage space, which fill it in the machine shown.
in the drawings.
The motor II is then stated and the, carrying, slides are slowly reciprocated. As pawl-folding-baffle angle plate 22- is' normally in position to prevent the first pawl on pawl-slide 8 from engaging the can cover at pawlstation P, the machine merely runs idle. No
can covers are moved, no valves are opened, and no water, or steam is lost.
The attendant then places an inverted can on the can track slats 4, and pushes it into positionv I right. At the same time pawl l5 on pawl-slide 9, which was folded back against its spring It by contact with the can neck, passes far enough to the left to escape the can neck, and is swung into can hauling position by its spring l6.
As soon as the can leaves station P, the attendant places another can upon the can track slats 4, ready to be pushed into station P, and another can cover in race-way 5.
When pawl slides 8 and 9 make another trip towards the right, they haul two can covers and two cans one step to the right, leaving a can and a can cover in station R and another can and a can cover in station Q, and as soon as the can cover which was in station P is dragged out, another can cover immediately rolls into the then empty station P. At the same time the atendant places another can in station P.
-When the machine moves the cans and their companion covers one more step towards the right the can in advance tips and slides down plate 32, strikes rubber covered rod 33, and falls upon rubber covered cradle arms 35. The can cover is taken by an attendant who puts it upon the can as soon as the can is uprighted by cradle arms 35 and set upon an ofi-bearing conveyer provided at this point.
As a matter of fact the can cover is received by a can cover replacing machine, which puts the cover on the companion can as soon as the can is set in an upright position by the cradle arms 35.
Having fully, described my invention and the best mode I now know of practicing it, I do not wish to be restricted to the exact details shown and described; because the machine is capable of many changes and variations in construction without departing from the spirit of the invention.
I claim as my invention everything embraced within the scope of the following claims:
1. In conveying mechanism for cans and can covers in a milk can and milk can cover washing machine the combination of a reciprocating feeder for the cans, a reciprocating feeder for the can covers above the can feeder, means for rigidly connecting the two feeders so they will move simultaneously in the same direction, a
separate trackway for each feeder, means for reciprocating the feeders along their respective trackways, a series of spring actuated pawls on each feeder, means for preventing the initial forward feeding of a can cover excepting simultaneously with its companion can comprising a baifie placed lengthwise of the can cover trackway to fold the first cover feeding pawl into inoperative position, an oscillatable shaft journaied on the side of the can cover trackway opposite the baiile, a baflie lifting arm fixed to the baffle and the oscillatable shaft, a down-hanging rod adjustably connected to the shaft, a wiper in the line of travel of the cans adjustably mounted upon the down-hanging rod to be contacted by a can when placed in initial can feeding position whereby the wiper and the down-hanging rod are pushed aside, the shaft is oscillated, and the baffle is lifted out of pawl folding position.
2. In conveying mechanism for cans and can covers in a milk can and milk can cover washing machine the combination of a reciprocating feeder for the cans, a reciprocating feeder for the can covers located above the can feeder, means for rigidly connecting the two feeders so they will move simultaneously in the same direction, a separate trackway for each feeder, means for reciprocating the feeders along their respective trackways, a series of spring actuated pawls on each feeder, means for preventing the initial forward feeding of a can cover excepting simultaneously with its companion can comprising a longitudinally disposed bafiiing angle plate to form a raceway in which the first can cover feeding pawl folds and reciprocates, an oscillatable shaft, an arm connecting the shaft and the angle plate, a depending actuating rodfixed to the shaft, an adjustable wiper fixed to the depending rod in the line of travel of the cans to be pushed aside by a can in initial feeding position whereby the shaft is oscillated and the baffling angle plate is lifted to permit the first can cover feeding pawl to function.
EDWARD C. DAMROW.
US34281A 1935-08-01 1935-08-01 Conveyer for cans and can covers Expired - Lifetime US2152244A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US34281A US2152244A (en) 1935-08-01 1935-08-01 Conveyer for cans and can covers

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US34281A US2152244A (en) 1935-08-01 1935-08-01 Conveyer for cans and can covers

Publications (1)

Publication Number Publication Date
US2152244A true US2152244A (en) 1939-03-28

Family

ID=21875414

Family Applications (1)

Application Number Title Priority Date Filing Date
US34281A Expired - Lifetime US2152244A (en) 1935-08-01 1935-08-01 Conveyer for cans and can covers

Country Status (1)

Country Link
US (1) US2152244A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2667062A (en) * 1950-09-20 1954-01-26 Rheem Mfg Co Conveyer line handling and testing of manufactured articles

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2667062A (en) * 1950-09-20 1954-01-26 Rheem Mfg Co Conveyer line handling and testing of manufactured articles

Similar Documents

Publication Publication Date Title
US3820301A (en) Egg handling apparatus
US2293192A (en) Turning device for milk cans and other articles
US1654706A (en) Packing machine
US1775003A (en) Bottle-washing machine
US1906126A (en) Means for conveying and unpacking cans and the like
US2357799A (en) Container handling machine
US2152244A (en) Conveyer for cans and can covers
US2124423A (en) Bottle washing machine
US1856976A (en) Unloading machine
US2132516A (en) Method of and apparatus for packaging fresh whole fruits and the like
US1749989A (en) Bottle-washing machine
US2549062A (en) Bottle crate shaker and cleaner
US2609916A (en) Machine for cleaning receptacles
US1721255A (en) Can-inverting device for can-washing machines
US2051090A (en) Bottle washing machine
US1939401A (en) Transporting means for can washers
US1910958A (en) Prerinsing device
US2369742A (en) Can upending mechanism
US3752340A (en) Article handling apparatus
US1509254A (en) Can-handling apparatus
US1366933A (en) Can up-ending mechanism
US1421056A (en) Can-inverting device for can-washing machines and the like
US2108227A (en) Bottle washing machine
US2302887A (en) Can assembling apparatus
US2147477A (en) Cover handling device