US1528133A - Piston conveyer - Google Patents

Piston conveyer Download PDF

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Publication number
US1528133A
US1528133A US726213A US72621324A US1528133A US 1528133 A US1528133 A US 1528133A US 726213 A US726213 A US 726213A US 72621324 A US72621324 A US 72621324A US 1528133 A US1528133 A US 1528133A
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cylinder
pistons
links
conveyer
chain
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US726213A
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Maurice J Ross
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B31/00Packaging articles or materials under special atmospheric or gaseous conditions; Adding propellants to aerosol containers
    • B65B31/02Filling, closing, or filling and closing, containers or wrappers in chambers maintained under vacuum or superatmospheric pressure or containing a special atmosphere, e.g. of inert gas
    • B65B31/025Filling, closing, or filling and closing, containers or wrappers in chambers maintained under vacuum or superatmospheric pressure or containing a special atmosphere, e.g. of inert gas specially adapted for rigid or semi-rigid containers

Definitions

  • My invention relates to conveyingmechanism'and particularlyto apparatus for moving receptacles into and out of a vacuulnized chamber.
  • One of the objects of the invention is the provision of a conveyer for introducing cans into the vacuum chamber surrounding a double seamer and removing the cans from such chamber without breaking the vacuum.
  • Another object of the invention is the provision of a chain conveyer of the type described in which the links lock rigidly in alinement as they turn into the reaches of the conveyer, so that the reaches tend to assume a bar-like rigidity and the pistons embodied in the chain properly engage in the cylinders thru which they pass into and out of the vacuumized chamber.
  • Figure 1 is a plan. view of my apparatus as used to transfer a succession of cans from a clincher into a vacuumizedchamber where they are acted upon by a double seamer and then convey them out of the chamber.
  • Figure 2 is a detail partly in horizontal section, and showing a portion of the conveyer and one of the cylinders.
  • Figure 3 is a view in elevation, and from the direction of the arrow 3 shown in Figure 2, of one of the pistons with the connecting can-enclosing links.
  • Figure 4 is a transverse sectional View of one of the pistons and the connecting links, the planes of the section being indicated by the line 4-4 of Figure 3.
  • the apparatus of my invention comprises a pair of sprocket wheels 2 and.3 arranged on opposite sides of the wall 4 of the vacuumized chamber -6 in which a double seamer of the usual type is arranged. Since ent invention, it will not be described and W111 be referred to herein by name, as typical of any machine for operating upon an object in a closed container under vacuum or under pressure.
  • a frame 7 Fixed on the wall 4 of the tank is a frame 7 including two tubes forming cylinders 8 and 9 with open ends, so that each provides a cylindrical passage thru the Wall.
  • each piston Projecting from the opposite faces of each piston are pivot pin lugs 16, a groove being provided between each pair of lugs in which the end of the link may engage with a working fit to prevent side play.
  • the link is pivotally connected to the piston at one Side of the axis of the piston by a pivot pin 17, and since the end faces of the links are parallel, the links are adapted to seat against the pistons, as in a knuckle joint, when the links move off of the sprocket wheels, so that the reaches of the chain are rigid and the successive pistons approach the cylinders in proper alinement.
  • Rollers 21 mounted on the outside of each link carry the chain on the sprocket arms 22 of the sprocket wheels, the lstons lying between the sprocket arms as shown in Figure 2. Because of the close fit of the links in the lugs, there is no material movement of the chain laterally.
  • the links 11 of each pair are spaced apart laterally, sufliciently to accommodate therebetween the cans 23 which are to be handled; and disposed on each sprocket wheel are arms 26 which act as ejectors with the rotation of the sprockets to remove the cans from the conveyer.
  • a succession of cans 23 is carried by the conveyer belt 31 and star wheel 32, both of conventional design, into theclincher, generally designated by the reference character 33, from which the cans emerge and pass between the links 11 of my piston conveyer. of travel of the conveyer is synchronized The. rate the double seamer forms no part of my pres- -by well known devices with the rotational the conveyer a star wheel 34. connected by suitable means for synchronous rotation with the conveyer chain is so arranged that the arms of the wheel engage the can between the links of the chain and push it into the desired position as the chain moves by the wheel. 4
  • the can After reaching the inside of the chamber the can is ejected from the chain by contact with one of the arms 26 and is conveyed by the belt 36 of conventional design, into the double seaming or other mechanism.
  • the can is caught by the belt 37, and by means of the star wheel 38 of conventional design is replaced on the chain and carried out of the chamber 6 thru the cylinder 8, then being ejected by the arms 26 on the sprocket Wheel 2, upon a table or conveyer 38 which carries -it to the next operating station.
  • A'conveyer comprising a cylinder, an endless chain including load-bearing links and having one. reach passing thru said cylinder, and pistons fitting said cylinder arranged on said chain at intervals less than the length of the cylinder.
  • a conveyer comprising a cylinder, an endless chain including load-bearing links and having one reach passing thru said cylinder, and pistons fitting said cylinder arranged between the links at intervals less than the length of the cylinder.
  • a conveyer comprising a cylinder, an endless chain including load-bearing links and having one reach passing thru said cylinder, and pistons fitting said cylinder and pivotally connecting adjacent links, the spacmg of said pistons being less than the length of the cylinder.
  • a conveyer comprising a cylinder, an
  • a conveyer comprising a cylinder, a plurality of pistons fitting the cylinder and each having on each face pivot pin lugs at one side of the axis of the piston, and links pivotally connected to said lugs and having parallel end faces adapted to seat upon the adjoining faces of the connected pistons to maintain adjacent pistons in parallelism.
  • a conveyer comprising a cylinder, a plurality of pistons fitting the cylinder and each having on each face pivot pin lugs at one side of the axis of the piston, a pair of spaced links pivotally connected to said lugs between each two pistons, to form an endless chain, each link having parallel end faces adapted to seat upon the adjoining faces of the connected pistons to maintainadjacent pistons in parallelism.
  • a tube forming a cylinder arranged thru the Wall of the container, a chain including load bearing links disposed thru said cylin' der, and pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder.
  • a tube forming a cylinder arranged thru the wall of the container, a chain including load bearing links disposed thru said cylin der, and pistons fitting said cylinder piv otally interposed between adjacent links to form knuckle joints therewith, the spacing between the adjacent pistons being less than the length of the cylinder.
  • a tube forming a cylinder arranged thru the Wall of the container, a chain including load bearing links disposed thru said cylinder, pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder and means for moving the loads to and from the load bearing links.
  • a tube forming a cylinder arranged thru the wall of the container, a chain including load bearing links disposed thru said cylinder, pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder; a sprocket wheel for carrying one end of the chain, and arms on said wheel for moving the loads from the load bearing links.
  • An apparatus for moving receptacles into and out of a vacuuinized chamber comprising a pair of tubes forming cylinders arranged thru the chamber wall, an endless chain including load-bearing links passing thru saidcylinders, and pistons fittingsaid cylinders arranged on said chain at intervals less than the length of the cylinders.
  • An apparatus for moving receptacles into and out of a vaouumized chamber comprising a pair of tubes forming cylinders arranged thru the chamber well, an endless chain including load-bearing links passing thru said cylinders, pistons fitting said cylinders arranged on said chain at intervals less than the length of the cylinders and means for loading and unloading the chain on each side of the chamber wall.

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  • Chemical & Material Sciences (AREA)
  • Dispersion Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Specific Conveyance Elements (AREA)

Description

Mar. 3. 1925. I 1,528,133
M. J. ROSS PISTON CONVEYER Filed July 15 1924 2 Sheets-Sheet 2 Patented Mar. 3, 1925 PATENT OFFICE.
MAURICE J. ROSS, OF SAN FRANCISCO, CALTFORNIA.
PISTON CONVEYER.
Application filed July 15, 1924. Serial 1T0. 726,213.
To all whom it may concern:
- Be it known that I, MAURICE J. Ross, a citizen of the United States of America, and a resident of the city and county of San Francisco and State of California, have invented a new and useful Piston Conveyer, of which the following is a specification.
My invention relates to conveyingmechanism'and particularlyto apparatus for moving receptacles into and out of a vacuulnized chamber.
One of the objects of the invention is the provision of a conveyer for introducing cans into the vacuum chamber surrounding a double seamer and removing the cans from such chamber without breaking the vacuum.
Another object of the invention is the provision of a chain conveyer of the type described in which the links lock rigidly in alinement as they turn into the reaches of the conveyer, so that the reaches tend to assume a bar-like rigidity and the pistons embodied in the chain properly engage in the cylinders thru which they pass into and out of the vacuumized chamber.
My invention possesses other objects and features of advantage, some ofwhich, with the foregoing will be set forth in the following description of my invention,. It is to be understood that I do not liifiit myself to the showing made by the said description, as I may adopt variant forms of the invention within the scope of the claims.
Referring to the drawings:
Figure 1 is a plan. view of my apparatus as used to transfer a succession of cans from a clincher into a vacuumizedchamber where they are acted upon by a double seamer and then convey them out of the chamber.
Figure 2 is a detail partly in horizontal section, and showing a portion of the conveyer and one of the cylinders.
Figure 3 is a view in elevation, and from the direction of the arrow 3 shown inFigure 2, of one of the pistons with the connecting can-enclosing links.
Figure 4 is a transverse sectional View of one of the pistons and the connecting links, the planes of the section being indicated by the line 4-4 of Figure 3.
The apparatus of my invention comprises a pair of sprocket wheels 2 and.3 arranged on opposite sides of the wall 4 of the vacuumized chamber -6 in which a double seamer of the usual type is arranged. Since ent invention, it will not be described and W111 be referred to herein by name, as typical of any machine for operating upon an object in a closed container under vacuum or under pressure.
Fixed on the wall 4 of the tank is a frame 7 including two tubes forming cylinders 8 and 9 with open ends, so that each provides a cylindrical passage thru the Wall.
Arranged on the sprocket wheels 2 and 3 and extending thru the cylinders 8 and 9 is an endless chain comprising the links 11 spaced apart in pairs on each side of the pistons 12, and pivotally connected to the pistons after the fashion of a knuckle joint. The pistons l2-are provided with piston rings 18 which form a tight working fit within the cylinders, the edges 14 of which are coned out to facilitate the entrance of the ringed piston. Y
Projecting from the opposite faces of each piston are pivot pin lugs 16, a groove being provided between each pair of lugs in which the end of the link may engage with a working fit to prevent side play. The link is pivotally connected to the piston at one Side of the axis of the piston by a pivot pin 17, and since the end faces of the links are parallel, the links are adapted to seat against the pistons, as in a knuckle joint, when the links move off of the sprocket wheels, so that the reaches of the chain are rigid and the successive pistons approach the cylinders in proper alinement. Rollers 21 mounted on the outside of each link carry the chain on the sprocket arms 22 of the sprocket wheels, the lstons lying between the sprocket arms as shown in Figure 2. Because of the close fit of the links in the lugs, there is no material movement of the chain laterally.
The links 11 of each pair are spaced apart laterally, sufliciently to accommodate therebetween the cans 23 which are to be handled; and disposed on each sprocket wheel are arms 26 which act as ejectors with the rotation of the sprockets to remove the cans from the conveyer.
Referring now to Figure 1, a succession of cans 23 is carried by the conveyer belt 31 and star wheel 32, both of conventional design, into theclincher, generally designated by the reference character 33, from which the cans emerge and pass between the links 11 of my piston conveyer. of travel of the conveyer is synchronized The. rate the double seamer forms no part of my pres- -by well known devices with the rotational the conveyer a star wheel 34. connected by suitable means for synchronous rotation with the conveyer chain is so arranged that the arms of the wheel engage the can between the links of the chain and push it into the desired position as the chain moves by the wheel. 4
The can now enters the cylinder 9 andsince the spacing of the piston on the chain is less than the length of the cylinder, there is always a piston in the cylinder to prevent loss ot the vacuum or pressure within the chamber 6. Obviously some loss proportioned to the space between the pistons occurs, but with suitable vacuum or pressure means this is negligible. After reaching the inside of the chamber the can is ejected from the chain by contact with one of the arms 26 and is conveyed by the belt 36 of conventional design, into the double seaming or other mechanism. Emerging from this mechanism, the can is caught by the belt 37, and by means of the star wheel 38 of conventional design is replaced on the chain and carried out of the chamber 6 thru the cylinder 8, then being ejected by the arms 26 on the sprocket Wheel 2, upon a table or conveyer 38 which carries -it to the next operating station.
It is of course obvious that all parts of the apparatus must be synchronized to run in step, but this is comnron practice in the art and accomplished by well known means which will need no description here, since such mechanism forms no part of my present invention.
I claim:
1. A'conveyer comprising a cylinder, an endless chain including load-bearing links and having one. reach passing thru said cylinder, and pistons fitting said cylinder arranged on said chain at intervals less than the length of the cylinder.
2. A conveyer comprising a cylinder, an endless chain including load-bearing links and having one reach passing thru said cylinder, and pistons fitting said cylinder arranged between the links at intervals less than the length of the cylinder.
3. A conveyer comprising a cylinder, an endless chain including load-bearing links and having one reach passing thru said cylinder, and pistons fitting said cylinder and pivotally connecting adjacent links, the spacmg of said pistons being less than the length of the cylinder.
4. A conveyencomprising a cylinder, an endless chain including load-bearing links and having one reach passing thru said cylinder, and pistons fitting said cylinder and pivotally connecting adjacent links.
5. A conveyer comprising a cylinder, an
means endless chain including load-bearing links and having one reach passing thru said cylinder, pistons fitting said cylinder and pivotally connecting adjacent links at one side of the axis of the piston, and shoulders on the links opposite the pivoted connections of such proportions as to engage the pistons when adjacent pistons are parallel.
6. A conveyer comprising a cylinder, a plurality of pistons fitting the cylinder and each having on each face pivot pin lugs at one side of the axis of the piston, and links pivotally connected to said lugs and having parallel end faces adapted to seat upon the adjoining faces of the connected pistons to maintain adjacent pistons in parallelism.
7. A conveyer comprising a cylinder, a plurality of pistons fitting the cylinder and each having on each face pivot pin lugs at one side of the axis of the piston, a pair of spaced links pivotally connected to said lugs between each two pistons, to form an endless chain, each link having parallel end faces adapted to seat upon the adjoining faces of the connected pistons to maintainadjacent pistons in parallelism.
8. In combination with a closed receptacle, a tube forming a cylinder arranged thru the Wall of the container, a chain including load bearing links disposed thru said cylin' der, and pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder.
9. In combination with a closed receptacle, a tube forming a cylinder arranged thru the wall of the container, a chain including load bearing links disposed thru said cylin der, and pistons fitting said cylinder piv otally interposed between adjacent links to form knuckle joints therewith, the spacing between the adjacent pistons being less than the length of the cylinder.
10. In combination with a closed receptacle, a tube forming a cylinder arranged thru the Wall of the container, a chain including load bearing links disposed thru said cylinder, pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder and means for moving the loads to and from the load bearing links.
11. In combination with a closed receptacle, a tube forming a cylinder arranged thru the wall of the container, a chain including load bearing links disposed thru said cylinder, pistons fitting the cylinder arranged on said chain at intervals less than the length of the cylinder; a sprocket wheel for carrying one end of the chain, and arms on said wheel for moving the loads from the load bearing links.
12. An apparatus for moving receptacles into and out of a vacuuinized chamber comprising a pair of tubes forming cylinders arranged thru the chamber wall, an endless chain including load-bearing links passing thru saidcylinders, and pistons fittingsaid cylinders arranged on said chain at intervals less than the length of the cylinders.
13. An apparatus for moving receptacles into and out of a vaouumized chamber comprising a pair of tubes forming cylinders arranged thru the chamber well, an endless chain including load-bearing links passing thru said cylinders, pistons fitting said cylinders arranged on said chain at intervals less than the length of the cylinders and means for loading and unloading the chain on each side of the chamber wall.
In testimony whereof, I have hereunto set my hand.
MAURICE J. R058
US726213A 1924-07-15 1924-07-15 Piston conveyer Expired - Lifetime US1528133A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2894795A (en) * 1955-05-23 1959-07-14 Jr Charles P Marsden Automatic evacuation system for electron tubes
US2936059A (en) * 1954-12-21 1960-05-10 Hakogi Ichiro All-automatic apparatus for handling curved-surface articles
DE1168339B (en) * 1960-12-30 1964-04-16 Atomic Energy Authority Uk Conveyor device for package irradiation system
US3418918A (en) * 1966-01-14 1968-12-31 Financ Et Ind Des Ateliers Et Sterilization apparatus
US4157753A (en) * 1976-10-15 1979-06-12 Cidelcem Conveyor plant

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2936059A (en) * 1954-12-21 1960-05-10 Hakogi Ichiro All-automatic apparatus for handling curved-surface articles
US2894795A (en) * 1955-05-23 1959-07-14 Jr Charles P Marsden Automatic evacuation system for electron tubes
DE1168339B (en) * 1960-12-30 1964-04-16 Atomic Energy Authority Uk Conveyor device for package irradiation system
US3418918A (en) * 1966-01-14 1968-12-31 Financ Et Ind Des Ateliers Et Sterilization apparatus
US4157753A (en) * 1976-10-15 1979-06-12 Cidelcem Conveyor plant

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