US185596A - Improvement in modes of, and apparatus for, unloading vessels - Google Patents

Improvement in modes of, and apparatus for, unloading vessels Download PDF

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US185596A
US185596A US185596DA US185596A US 185596 A US185596 A US 185596A US 185596D A US185596D A US 185596DA US 185596 A US185596 A US 185596A
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cylinder
carriage
ports
vessel
modes
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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
    • B65G67/00Loading or unloading vehicles

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  • the object of my invention is to quickly discharge the cargo of barges and other like vessels; and this object I attain in the manner which I will now proceed to describe, reference being had to the accompanying drawing.
  • FIG. 1 A represents a carriage resting upon rollers, interposed between it and the four rails a of an inclined marine railway of the usual construction, this railway extending from a point some distance above high-water mark to a point where there is always a suitable depth of water.
  • B On the carriage A are formed ways B, on which is arranged to roll a hollow cylinder, D, motion being imparted to the latter by means of two chains, E E, which are arranged one at each end of the said cylinder, and pass over chain-wheels 0 on the shafts F F, at opposite ends of the carriage, the ends of each chain, after passing partly round the cylinder D, being firmly secured to the same.
  • a number of ports, b In one side of the cylinder D are formed a number of ports, b, and in the opposite side are formed a number of similar ports, b, while the bottom of the carriage A, near one end, has ports d, and near the other end ports 01, the distance on the ways B between the ports (2 and at being equal to the distance from the port b to the port b,
  • the ways B are curved, being highest in the center. and descending gradually toward each end of the carriage.
  • the interior of the hollow cylinder D is arranged for the reception of the vessel to be unloaded, the said vessel being retained therein by blocks 6 e at each end, these blocks being firmly clamped against the deck of the vessel, at both how and stern, by means of screw boltsf, as shown in the section of the cylinder, Fig. 2.
  • the operation of unloading a vessel is as follows: Supposing the carriage A to be at the upper end of the railway, and the cylinder D to be in a central position on the same, the cylinder being on an even keel when in this position.
  • the carriage is lowered into the water until the vessel which has to be unloaded can be floated into the hollow cylinder, in which it is then firmly secured by the blocks 6 and bolts f, above referred to.
  • the carriage is now drawn up until it reaches the place where the load has to be discharged, when its movement is stopped and motion imparted to one of the shafts F.
  • a strong framework, J on which is a steam boiler, m, and engine n, the driving-shaft of the latter being connected, by means of gearing, which it will not be necessary to describe in detail, to two shafts, s and if, either or both of which can be thrown into or out of gear with the said driving-shaft by manipulating suitable levers.
  • the shaft 3 is connected in the present instance, by means of chain-gearing, with one of the shafts F at the end of the carriage A, and the shaft t carries a double pinion, T, the teeth of which gear into the teeth of a double rack, S, arranged centrally upon and extending the entire length of the railway.
  • I provide the shaft t with a swinging frame, w, provided with rollers w x, which bear upon the under edge of the rack, and serve to keep its teeth constantly in gear, and in order to permit the passage of theseg'ollers there must be a free space beneath the rack; and to overcome any tendency which the rack might have to sag from this cause, I place at intervals hinged props v, the upper ends of which, when the props are in a vertical position, are adapted to and support the rack, these props, however, readily yielding to permit the passage of the rollers .10. (See Fig. 5.)
  • my invention has been especially designed to facilitate the unloading of canalbarges, it can be adapted to the unloading of vessels of diflzerent classes carrying cargoes in bulk.
  • the cylinder D constructed for the reception, retention, and overturning of a vessel, and provided with discharge-ports b and b, as set forth.
  • the cylinder D provided with clampingblocks e and screw-bolts f, as specified.

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  • Engineering & Computer Science (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Ship Loading And Unloading (AREA)

Description

W. VAN DUSEN.
MODES OF, AND APPARATUS FOR, UNLOADING VESSELS.
No.185,596. Patented Dec.19, 1876.
9 I 6 7 J1 r. I! j: I of 94W 1% a 61 a a THE GRAPHIC CILN UNITED STATES PATENT Peron.
WASHINGTON VAN DUSEN, OF PHILADELPHIA, PENNSYLVANIA.
IMPROVEMENT IN MODES 0F.AND APPARATUS FOR, UNLOADING VESSELS.
Specification forming part of Letters Patent No. 185,596, dated December 19, 1876; application tiled November 28, 1876.
To all whom it may concern Be it known that 1, WASHINGTON VAN DUSEN, of Philadelphia, Pennsylvania, have invented an Improved Mode of, and Apparatus for, Unloading Vessels, of which the following is a specification:
The object of my invention is to quickly discharge the cargo of barges and other like vessels; and this object I attain in the manner which I will now proceed to describe, reference being had to the accompanying drawing.
The main feature of my invention can be best explained by referring to Figure 1, in which A represents a carriage resting upon rollers, interposed between it and the four rails a of an inclined marine railway of the usual construction, this railway extending from a point some distance above high-water mark to a point where there is always a suitable depth of water. On the carriage A are formed ways B, on which is arranged to roll a hollow cylinder, D, motion being imparted to the latter by means of two chains, E E, which are arranged one at each end of the said cylinder, and pass over chain-wheels 0 on the shafts F F, at opposite ends of the carriage, the ends of each chain, after passing partly round the cylinder D, being firmly secured to the same. In one side of the cylinder D are formed a number of ports, b, and in the opposite side are formed a number of similar ports, b, while the bottom of the carriage A, near one end, has ports d, and near the other end ports 01, the distance on the ways B between the ports (2 and at being equal to the distance from the port b to the port b,
measured on the circumference of the cylin-- der D, around the bottom of the same. When the cylinder is in the position shown in Fig. 1, the ports b will communicate with the ports d, and when the cylinder is at the opposite end of the carriage the ports I) will communicate with the ports (1.
It will be observed that the ways B are curved, being highest in the center. and descending gradually toward each end of the carriage. The interior of the hollow cylinder D is arranged for the reception of the vessel to be unloaded, the said vessel being retained therein by blocks 6 e at each end, these blocks being firmly clamped against the deck of the vessel, at both how and stern, by means of screw boltsf, as shown in the section of the cylinder, Fig. 2.
The operation of unloading a vessel is as follows: Supposing the carriage A to be at the upper end of the railway, and the cylinder D to be in a central position on the same, the cylinder being on an even keel when in this position. The carriage is lowered into the water until the vessel which has to be unloaded can be floated into the hollow cylinder, in which it is then firmly secured by the blocks 6 and bolts f, above referred to. The carriage is now drawn up until it reaches the place where the load has to be discharged, when its movement is stopped and motion imparted to one of the shafts F. This causes a movement of the chains E, and a consequent rolling of the cylinder D over the ways B to one side or the other, according to the direction of the movement imparted to the shaft F. This movement is continued until the ports b or b of the cylinder coincide with the ports d or d of the carriage, the vessel being then partly overturned, as shown in Fig. 1, so that the cargo will pass from the hold of the vessel by gravity, and escape through the ports of the cylinder and carriage onto a wharf, or into a vessel beneath, or into chutes G, for directing it to any desired point. When the vessel is unloaded, the cylinder D is returned to its central upright position, the carriage A again lowered into the water, the empty vessel released from the cylinder and floated out, and its place occupied by another loaded vessel, prior to a repetition of the above described operations.
I prefer to construct the vessels with deckplanks g, hung at the outer edges to the upper edge of the sides of the vessel, as shown in Fig. 3, so that upon overturning the latter the said deck-planks will assume the position shown by dotted lines, and thus cease to interfere with the complete discharge of the cargo from the hold.
Various means may be employed for causing the movement of the carriage A along the railway, and for causing the rolling movement of the cylinder D; but I prefer the arrange ment shown in the perspective view, Fig. 4, on account of its compactness and directness of operation.
To the carriage A is secured a strong framework, J, on which is a steam boiler, m, and engine n, the driving-shaft of the latter being connected, by means of gearing, which it will not be necessary to describe in detail, to two shafts, s and if, either or both of which can be thrown into or out of gear with the said driving-shaft by manipulating suitable levers.
The shaft 3 is connected in the present instance, by means of chain-gearing, with one of the shafts F at the end of the carriage A, and the shaft t carries a double pinion, T, the teeth of which gear into the teeth of a double rack, S, arranged centrally upon and extending the entire length of the railway.
In order to keep the teeth of the pinion T always in gear with the teeth of the rack S, I provide the shaft t with a swinging frame, w, provided with rollers w x, which bear upon the under edge of the rack, and serve to keep its teeth constantly in gear, and in order to permit the passage of theseg'ollers there must be a free space beneath the rack; and to overcome any tendency which the rack might have to sag from this cause, I place at intervals hinged props v, the upper ends of which, when the props are in a vertical position, are adapted to and support the rack, these props, however, readily yielding to permit the passage of the rollers .10. (See Fig. 5.)
Although my invention has been especially designed to facilitate the unloading of canalbarges, it can be adapted to the unloading of vessels of diflzerent classes carrying cargoes in bulk.
I claim as my invention- 1. The cylinder D, constructed for the reception, retention, and overturning of a vessel, and provided with discharge-ports b and b, as set forth.
2. The combination of the cylinder D with a carriage, A, adapted to a marine railway.
3. The combination of the cylinder D and its ports I; b with the carriageA and its ports 01 d.
4. The combination of the cylinder D with the carriage A, its shafts F, and chains E,
5. The cylinder D, provided with clampingblocks e and screw-bolts f, as specified.
6. The combination of a vessel having hinged gang-planks g with devices, substantially as described, by which said vessel may be wholly or partially overturned.
7. The combination of the carriage A and the frame J with the boiler m, engine it, shaft 8, operating the cylinder, and shaft t, operating the carriage, and with intermediate gearing, substantially as described.
8. The combination of the shaft it, its pinion T, and frame to, having rollers 40, with the rack s and hinged supportingprops v, as set forth.
In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.
WASHINGTON VAN DUSEN.
Witnesses:
HERMANN MOESSNEB, HARRY SMITH.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3428193A (en) * 1966-07-05 1969-02-18 Russell A Miller Boat unloading assembly
WO1979000128A1 (en) * 1977-09-02 1979-03-22 Da Luz O Kramer Rotating pontoon

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3428193A (en) * 1966-07-05 1969-02-18 Russell A Miller Boat unloading assembly
WO1979000128A1 (en) * 1977-09-02 1979-03-22 Da Luz O Kramer Rotating pontoon
US4409917A (en) * 1977-09-02 1983-10-18 Olavo Kramer Da Luz Rotating pontoon

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