US2130171A - Slab piler - Google Patents

Slab piler Download PDF

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Publication number
US2130171A
US2130171A US118652A US11865236A US2130171A US 2130171 A US2130171 A US 2130171A US 118652 A US118652 A US 118652A US 11865236 A US11865236 A US 11865236A US 2130171 A US2130171 A US 2130171A
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Prior art keywords
slab
slabs
pawls
skid
members
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US118652A
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Theodore A Zsamboky
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G57/00Stacking of articles
    • B65G57/02Stacking of articles by adding to the top of the stack
    • B65G57/08Stacking of articles by adding to the top of the stack articles being tilted or inverted prior to depositing

Definitions

  • This invention relates particularly to slab pilers that utilize the force of gravity to pile heavy metal slabs or the like.
  • One object of this invention is to provide a slab piler which requires no power to drive it and which has a minimum of operating parts.
  • Figure 1 is an elevation, with the end-skid member partly broken away, of one embodiment of my novel slab piler, the movement of a slab thereover being indicated by dotted lines;
  • Figure 2 is an end elevation of Figure 1.
  • the numeral 2 indicates generally a slab piler which is adapted to pile heavy metallic slabs or the like.
  • the slab piler 2 includes a plurality of aligned, parallel skid-members 4 which are secured to a suitably anchored base-plate 6 by brackets 8 and which may be grouped into pairs, as shown in the drawing.
  • the skid-members a are preferably provided with downwardly slanted upper surfaces l0, sharply inclined front surfaces 82 and substantially vertical front surfaces I4.
  • the upper surfaces ID are adapted to receive a -heavy metal slab It or the like and permit gravity to slide the metal slab l6 onto the front surfaces i4. Gravity also tends to slide the metal slab 16 over and hold it against the surfaces 14.
  • the number and construction of the skid-members 4 depend upon the weight and length of the slabs to be received thereon.
  • the metal slab i6 is placed on the upper surfaces lll by any suitable means, such as a conveyer IS.
  • the conveyer I8 is provided with arms H which bear upon the metal slab l6 and make it move with the conveyer.
  • the sprockets 20 are carried by a shaft 2
  • pawls 22 are pivotally secured between pairs of the skid-members 4, as shown in the drawing.
  • the pawls 22 have upper fingers 24 and lower fingers 26.
  • the pawls 22 are adapted to normally position themselves in such a manner that the upper fingers 24 are substantially flush with the front surfaces l2 and the lower fingers 26 project at substantially right angles to the front surfaces l2. Therefore, as the metal slab l6 slides down over the front surfaces I2, the forward or lower edge thereof engages with or bears upon a plurality of the lower fingers 26.
  • the weight and downward movement of the metal slab l6 causes the pawls 22 to rotate and force the upper fingers 24 to bear upon the rear surface of the slab i6.
  • This motion of the pawls 22 starts the slab l6 5 rotating about its lower edge.
  • the lower fingers 28 are moved inwardly or toward the skidmembers 4 and finally move within the edges of the skid-members 4 and necessarily release the 10 metal slab IS.
  • the downward movement 01' the slab I6 is considerably slowed by the pawls 22.
  • the upper fingers 24 have moved the upper portion of the metal slab IS a distance from the front surfaces l2 and imparted a definite rotational l6 movement to the metal slab it while it was in contact with the lower fingers 26.
  • the skid-piler 2 is constructed and arranged to permit the metal slab IE to move downwardly and continue to rotate after being released from the pawls 22.
  • One 20 edge of the metal slab I6 normally contacts the front surfaces I2 and I4 during its downward, rotating movement.
  • the pawls are pivotally mounted so that the center of gravity of each of the pawls is below 25 its supporting axis and will normally assume the position as shown in the fulllines of Figure 1. This permits the pawls to return to their normal position after a slab has passed thereover in order to receive the next slab and the slabs successive 30 ly thereafter.
  • the pawls if desired, may be weighted at the bottom, or a spring or other means supplied to aid in returning the pawls to their normal position, but it is thought that this is not necessary.
  • Means are provided to receive or catch the moving metal slab l6, and include slab catchers 28 which are secured to and supported by a baseplate 30.
  • the slab catchers 28 are positioned adjacent the front surfaces l4 and inclined toward 40 the skid-members 4.
  • Catcher skids 22, particularly adapted to receive the impact of the falling metal slab I6, may be carried by the upper surfaces of the slab catchers 28.
  • the catcher skids 32 are positioned to receive'the falling metal slab 45 l6when they are substantially parallel to the upper surface thereof.
  • the catcher skids 32 are slanted toward the skid-members 4 a suflicient amount to make gravity slide the metal slab ii over against the skid-members 4.
  • the speed of the conveyer I 8 is regulated so that the metal slabs are not delivered to the skidpiler 2 faster than it can handle them.
  • the catcher skids are adapted to receive a plurality of metal slabs but the piled metal slabs 55 should never extend to a height adjacent the junction of the front surface with the front surface [2
  • the catcher skids 82 and the slab catcher 28 v are constructed and arranged to permit a multiple gang-hook 34, or similar device, tobe inserted between the slab catchers 28 and pick up the metal slabs ll thereon.
  • the multiple ganghook 34 first engages the lowermost edge of the bottom metal slab.
  • the multiple gang-hook 34 is raised and the lower edges of the metal slabs I6 are all slid along the front surface l4 andthe metal slabs l6 are pivoted about the higher edges of their bottom surfaces until the metal slabs l6 are moved to a horizontal position.
  • the front surface i4 is made substantially tangential to the are described by the lower edge of the bottom metal slab l6 when it is raised by the multiple gang-hook 34.
  • the arms of the multiple ganghook 34 are finally brought into linear contact with the lowest metal slab i6 and the front surfaces l4 meanwhile have positively aligned the sides of the metal slabs i6 piled on the multiple gang-hook 34.
  • Apparatus for piling fiat metallic pieces including a plurality of aligned skid-members provided with backwardly inclined front surfaces, means for moving said pieces successively onto said front surfaces, said front surfaces being adapted to permit gravity to slide said pieces thereover, pawls provided with upper and lower fingers pivotally secured between a plurality of pairs of said skid-members, said pawls adapted to be actuated by the weight of said pieces and being constructed and arranged to start said pieces rotating about their lower edges, said apparatus being adapted to permit said pieces to continue to move downwardly and rotate after being released from said pawls,.and a plurality of spaced catchers secured against the base of said skid-members for receiving said pieces.
  • Apparatus for piling slabs including a plurality of aligned skid-members provided with backwardly inclined front surfaces, the upper portions of said front surfaces being sharply inclined and the lower portions thereof being substantialy vertical, means for moving a slab onto said upper portions, said upper portions being adapted to permit gravity to slide said slab thereover, pawls provided with upper and lower fingers pivotally secured between pairs of said skid-members, said pawls being constructed and arranged to temporarily engage said slab and start said slab rotating about its lower edge, said apparatus being adapted to permit said slabs to continue to movedownwardly and rotate after being released by said pawls, and a plurality of spaced slab catchers secured adjacent the front of the bases of and inclined toward said skidmembers, said slab catchers being adapted to receive said slabs from said skid-members and cause one edge of said slabs to bear on said front surfaces of said skid-members.
  • Apparatus for piling heavy metal slabs by gravity including a plurality of aligned skidmembers provided with downwardly slanted upper surfaces and backwardly inclined front surfaces, the upper portions of said front .surfaces being sharply inclined and the lower portions being substantially vertical, means for simultaneously moving said slabs onto a plurality of said upper surfaces, saidvupper surfaces permitting gravity to move said slabs thereover onto said upper portions of said front surfaces, pawls provided with upper and lower fingers pivotally secured between pairs of said skid-members, said lower fingers normally projecting from said upper portions of said front surfaces and being adapted to be struck by the lower edge of any of said slabs moving over said front surfaces, the downward movement of said slabs causing said pawls to rotate and force said upper fingers to bear upon the rear surface of said slabs, said slabs being started to rotate about their lower edges and then being released from engagement with said lower fingers by the rotation of said pawl, slab catchers secured adjacent the front of the base of and inclined toward said skid-members, and catcher skids
  • Apparatus for piling slabs including a plurality of aligned skid members provided with backwardly inclined front surfaces, means for moving slabs successively onto said front surfaces, said front surfaces being adapted to permit gravity to slide said slabs thereover, a plurality of pawls pivotally mounted on said skid members, each of said pawls provided with an upper finger and a lower finger, said pawls normally positioned so that the upper fingers are below the plane of the inclined edges of said skid members with the lower fingers adapted to extend beyond said edges, said lower fingers adapted to be engaged temporarily by the edge of said slabs, the weight of said slabs adapted to actuate said pawls whereby said upper fingers cause said slabs to rotate about the edges thereof so that the lower fingers recede below the inclined edges of said skid members to deliver the slabs therefrom to a slab receiving means, and means for facilitating the return of said pawls to their normal positions.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Attitude Control For Articles On Conveyors (AREA)

Description

Sept. 13, 1938. T. A. ZSAMBOKY SLAB' FILER Filed Dec.51, 1936 INVENTOR. 721500025 4 Z54M50K 5 HA5 ATTORNEYS.
TW W052i Patented Sept. 13, 1938 UNITED STATES PATENT OFFICE Claims.
This invention relates particularly to slab pilers that utilize the force of gravity to pile heavy metal slabs or the like.
One object of this invention is to provide a slab piler which requires no power to drive it and which has a minimum of operating parts.
The above and further objects will be made apparent by referring to the following description and the accompanying drawing, in which:
Figure 1 is an elevation, with the end-skid member partly broken away, of one embodiment of my novel slab piler, the movement of a slab thereover being indicated by dotted lines; and
Figure 2 is an end elevation of Figure 1.
Referring more particularly tothe drawing, the numeral 2 indicates generally a slab piler which is adapted to pile heavy metallic slabs or the like. The slab piler 2 includes a plurality of aligned, parallel skid-members 4 which are secured to a suitably anchored base-plate 6 by brackets 8 and which may be grouped into pairs, as shown in the drawing. The skid-members a are preferably provided with downwardly slanted upper surfaces l0, sharply inclined front surfaces 82 and substantially vertical front surfaces I4. The upper surfaces ID are adapted to receive a -heavy metal slab It or the like and permit gravity to slide the metal slab l6 onto the front surfaces i4. Gravity also tends to slide the metal slab 16 over and hold it against the surfaces 14. The number and construction of the skid-members 4 depend upon the weight and length of the slabs to be received thereon.
The metal slab i6 is placed on the upper surfaces lll by any suitable means, such as a conveyer IS. The conveyer I8 is provided with arms H which bear upon the metal slab l6 and make it move with the conveyer. Sprockets 20, which are adjacent the upper surfaces It, mount and terminate the conveyer i8. The sprockets 20 are carried by a shaft 2| which is journaled in the skid-members 4 and may be driven by any suitable means (not shown).
In order to position the metal slabs l6 for piling, pawls 22 are pivotally secured between pairs of the skid-members 4, as shown in the drawing. The pawls 22 have upper fingers 24 and lower fingers 26. The pawls 22 are adapted to normally position themselves in such a manner that the upper fingers 24 are substantially flush with the front surfaces l2 and the lower fingers 26 project at substantially right angles to the front surfaces l2. Therefore, as the metal slab l6 slides down over the front surfaces I2, the forward or lower edge thereof engages with or bears upon a plurality of the lower fingers 26. The weight and downward movement of the metal slab l6 causes the pawls 22 to rotate and force the upper fingers 24 to bear upon the rear surface of the slab i6. This motion of the pawls 22 starts the slab l6 5 rotating about its lower edge. As the pawls 22 rotate about their fulcrum points, the lower fingers 28 are moved inwardly or toward the skidmembers 4 and finally move within the edges of the skid-members 4 and necessarily release the 10 metal slab IS. The downward movement 01' the slab I6 is considerably slowed by the pawls 22. The upper fingers 24 have moved the upper portion of the metal slab IS a distance from the front surfaces l2 and imparted a definite rotational l6 movement to the metal slab it while it was in contact with the lower fingers 26. The skid-piler 2 is constructed and arranged to permit the metal slab IE to move downwardly and continue to rotate after being released from the pawls 22. One 20 edge of the metal slab I6 normally contacts the front surfaces I2 and I4 during its downward, rotating movement.
The pawls are pivotally mounted so that the center of gravity of each of the pawls is below 25 its supporting axis and will normally assume the position as shown in the fulllines of Figure 1. This permits the pawls to return to their normal position after a slab has passed thereover in order to receive the next slab and the slabs successive 30 ly thereafter. The pawls, if desired, may be weighted at the bottom, or a spring or other means supplied to aid in returning the pawls to their normal position, but it is thought that this is not necessary.
Means are provided to receive or catch the moving metal slab l6, and include slab catchers 28 which are secured to and supported by a baseplate 30. The slab catchers 28 are positioned adjacent the front surfaces l4 and inclined toward 40 the skid-members 4. Catcher skids 22, particularly adapted to receive the impact of the falling metal slab I6, may be carried by the upper surfaces of the slab catchers 28. The catcher skids 32 are positioned to receive'the falling metal slab 45 l6when they are substantially parallel to the upper surface thereof. The catcher skids 32 are slanted toward the skid-members 4 a suflicient amount to make gravity slide the metal slab ii over against the skid-members 4.
The speed of the conveyer I 8 is regulated so that the metal slabs are not delivered to the skidpiler 2 faster than it can handle them.
The catcher skids are adapted to receive a plurality of metal slabs but the piled metal slabs 55 should never extend to a height adjacent the junction of the front surface with the front surface [2 The catcher skids 82 and the slab catcher 28 v are constructed and arranged to permit a multiple gang-hook 34, or similar device, tobe inserted between the slab catchers 28 and pick up the metal slabs ll thereon. The multiple ganghook 34 first engages the lowermost edge of the bottom metal slab. Then the multiple gang-hook 34 is raised and the lower edges of the metal slabs I6 are all slid along the front surface l4 andthe metal slabs l6 are pivoted about the higher edges of their bottom surfaces until the metal slabs l6 are moved to a horizontal position. The front surface i4 is made substantially tangential to the are described by the lower edge of the bottom metal slab l6 when it is raised by the multiple gang-hook 34. The arms of the multiple ganghook 34 are finally brought into linear contact with the lowest metal slab i6 and the front surfaces l4 meanwhile have positively aligned the sides of the metal slabs i6 piled on the multiple gang-hook 34.
While I have shown and described one specific embodiment of the invention, it will be understood that I do not wish to be limited exactly thereto since various modifications may be made without departing from the scope of the invention, as defined by the following claims.
I claim:
1. Apparatus for piling fiat metallic pieces including a plurality of aligned skid-members provided with backwardly inclined front surfaces, means for moving said pieces successively onto said front surfaces, said front surfaces being adapted to permit gravity to slide said pieces thereover, pawls provided with upper and lower fingers pivotally secured between a plurality of pairs of said skid-members, said pawls adapted to be actuated by the weight of said pieces and being constructed and arranged to start said pieces rotating about their lower edges, said apparatus being adapted to permit said pieces to continue to move downwardly and rotate after being released from said pawls,.and a plurality of spaced catchers secured against the base of said skid-members for receiving said pieces.
2. Apparatus for piling slabs including a plurality of aligned skid-members provided with backwardly inclined front surfaces, the upper portions of said front surfaces being sharply inclined and the lower portions thereof being substantialy vertical, means for moving a slab onto said upper portions, said upper portions being adapted to permit gravity to slide said slab thereover, pawls provided with upper and lower fingers pivotally secured between pairs of said skid-members, said pawls being constructed and arranged to temporarily engage said slab and start said slab rotating about its lower edge, said apparatus being adapted to permit said slabs to continue to movedownwardly and rotate after being released by said pawls, and a plurality of spaced slab catchers secured adjacent the front of the bases of and inclined toward said skidmembers, said slab catchers being adapted to receive said slabs from said skid-members and cause one edge of said slabs to bear on said front surfaces of said skid-members.
3. Apparatus for piling heavy metal slabs by gravity including a plurality of aligned skidmembers provided with downwardly slanted upper surfaces and backwardly inclined front surfaces, the upper portions of said front .surfaces being sharply inclined and the lower portions being substantially vertical, means for simultaneously moving said slabs onto a plurality of said upper surfaces, saidvupper surfaces permitting gravity to move said slabs thereover onto said upper portions of said front surfaces, pawls provided with upper and lower fingers pivotally secured between pairs of said skid-members, said lower fingers normally projecting from said upper portions of said front surfaces and being adapted to be struck by the lower edge of any of said slabs moving over said front surfaces, the downward movement of said slabs causing said pawls to rotate and force said upper fingers to bear upon the rear surface of said slabs, said slabs being started to rotate about their lower edges and then being released from engagement with said lower fingers by the rotation of said pawl, slab catchers secured adjacent the front of the base of and inclined toward said skid-members, and catcher skids carried by the upper surfaces of said slab catchers and positioned to receive said slabs when substantially parallel to the upper surfaces of said catcher skids, said catcher skids being adapted to cause one edge of said slabs to bear upon the front surfaces of said skid-members.
4. Apparatus for piling slabs including a plurality of aligned skid members provided with backwardly inclined front surfaces, means for moving slabs successively onto said front surfaces, said front surfaces being adapted to permit gravity to slide said slabs thereover, a plurality of pawls pivotally mounted on said skid members, each of said pawls provided with an upper finger and a lower finger, said pawls normally positioned so that the upper fingers are below the plane of the inclined edges of said skid members with the lower fingers adapted to extend beyond said edges, said lower fingers adapted to be engaged temporarily by the edge of said slabs, the weight of said slabs adapted to actuate said pawls whereby said upper fingers cause said slabs to rotate about the edges thereof so that the lower fingers recede below the inclined edges of said skid members to deliver the slabs therefrom to a slab receiving means, and means for facilitating the return of said pawls to their normal positions.
5. The combination of apparatus defined in claim 4 wherein the pawls are so pivotally mounted that the center of gravity of each of them is below their supporting axes thereby facilitating the return of said pawls to their normal position after a slab has passed thereover.
THEODORE A. ZSAMBOKY.
US118652A 1936-12-31 1936-12-31 Slab piler Expired - Lifetime US2130171A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2783873A (en) * 1953-11-30 1957-03-05 Diamond Match Co Egg handling equipment
US2868141A (en) * 1950-08-23 1959-01-13 Nat Biscuit Co Sandwich machines
US3090504A (en) * 1960-02-24 1963-05-21 Roscoe C Britton Apparatus for stacking slab-like elongated articles on edge
US3182818A (en) * 1961-07-11 1965-05-11 Eugene E Crile Pallet magzine loading device for concrete block producing machines
US4015722A (en) * 1975-10-16 1977-04-05 Mckenney's, Inc. Stacking machine and method
FR2643347A1 (en) * 1989-02-23 1990-08-24 Peugeot Device for conveying components with or without turning-over with a view to stacking them in at least one container
WO1991019659A1 (en) * 1990-06-11 1991-12-26 Cimcorp Oy Method and apparatus for transporting a planar body

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2868141A (en) * 1950-08-23 1959-01-13 Nat Biscuit Co Sandwich machines
US2783873A (en) * 1953-11-30 1957-03-05 Diamond Match Co Egg handling equipment
US3090504A (en) * 1960-02-24 1963-05-21 Roscoe C Britton Apparatus for stacking slab-like elongated articles on edge
US3182818A (en) * 1961-07-11 1965-05-11 Eugene E Crile Pallet magzine loading device for concrete block producing machines
US4015722A (en) * 1975-10-16 1977-04-05 Mckenney's, Inc. Stacking machine and method
FR2643347A1 (en) * 1989-02-23 1990-08-24 Peugeot Device for conveying components with or without turning-over with a view to stacking them in at least one container
WO1991019659A1 (en) * 1990-06-11 1991-12-26 Cimcorp Oy Method and apparatus for transporting a planar body

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