Nothing Special   »   [go: up one dir, main page]

US46878A - Improvement in marine railways - Google Patents

Improvement in marine railways Download PDF

Info

Publication number
US46878A
US46878A US46878DA US46878A US 46878 A US46878 A US 46878A US 46878D A US46878D A US 46878DA US 46878 A US46878 A US 46878A
Authority
US
United States
Prior art keywords
railway
water
caisson
vessel
track
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
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.)
SABIC Global Technologies BV
Publication date
Application granted granted Critical
Publication of US46878A publication Critical patent/US46878A/en
Anticipated expiration legal-status Critical
Assigned to SABIC INNOVATIVE PLASTICS IP B.V. reassignment SABIC INNOVATIVE PLASTICS IP B.V. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: GENERAL ELECTRIC COMPANY
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B71/00Designing vessels; Predicting their performance

Definitions

  • This invention relates to the overland trans portation ot' ships, gunboats, river boats, and other vessels from one navigable water to another. Canals between and connecting such waters have been to some extent constructed, and propositions have of late been made to build marine-railways instead of canals, by which vessels can be transported from one water to the other without detriment or breaking of bulk, the vessel to be lioated into an open cradle or frame by which it is supported in transitu. On a small scale this has already7 been done upon canals, the railway being employed instead of locks, and the boat moved in a frame upon a truck or carriage over the incline between the high and low waters ot ⁇ the canal.
  • I dispense with a cradle or frame and transport the vessel while tioated.
  • the opposite termini ofthe railway extending into the lake or other water, from or into which the boat is taken are provided with docks, a section ot' the railway extending over or into each of these docks and having suitable maehinery applied by which it can be raised and lowered in the dock.
  • a railway-carriage is run, said carriage having mounted upon it and properly supported a Water tank or caisson, which is raised and lowered with the terminal section of the railway.
  • This carriage and caisson being run over or into the dock, the terminal section, and with it the railway-carriage and its caisson, are lowered or depressed in the dock to a depth sufficient to allow the vessel to be transported to float over the caisson.
  • the railway-section is then raised until at the proper height to connect with the main track, the vessel being raised with and loated in the caisson, and being in this condition transported overland with ease and facility and without such straining and wrenching of the frame of the vessel l l i as must inevitably occur when transported in a frame and without the aid ot' a water support.
  • My invention may be said to consist primarily in this method ot' transporting a vessel overland-that is to say, by means of a water support into which the vessel is oated in one lake, basin, or river, and from which, at'tcr overland transportation, it is floated into the lake, basin, or other water atthe oppo site end of the railway.
  • Figure l ot' the drawings represents in elevation a portion of the railway, with one of' the termina-1 docks, and its terminal railwaysection, and the watercaisson and carriage.
  • Fig. 2 is a plan of the same.
  • Fig. 3 is a side elevation ot' the watercaisson.
  • Fig. 4 an end view thereof; and
  • Fig. 5, areversed plan ofthe water-caisson, carriage, or frame.
  • this railway carriage or frame Upon the top of this railway carriage or frame is placed an open tank or water-containing vessel, e, to which, in connection with the carriage which supports it, I give the name of water-caisson.
  • This tank is held in position and strengthened by louttresses, and it'necessary, by a bulwark or such other means of support as may be required to sustain the sides of the tank.
  • This water-caisson is so connected with the movable section b as to be raised and lowered with it when run thereupon, for the purpose of submerging the tank.
  • the tank is of such capacity as to oat any vessel which may require to be moved upon it, and the section b and water-caisson c, sublnerge to such depth as t0 allow the vessel to freely float over the caisson, as shown in Fig. l. Being in this position, the section b is raised, taking up with it the caisson and the floated vessel, until the track of the section connects with the main track.
  • a stationary engine may be used either alone or connection with a locomotive, a locomotive engine or engines being employed for drawing the caisson-carriage from one water to the other, as may be required.
  • a multiple series of rails is used, as seen in Fig. 2, they being arranged at such distances apart that, with the exception ofthe two outer rails, each rail may support the adjacent wheels of successive axles not in line. This will be better understood by reference to Figs. 2, 4, and 5, and particularly the latter ligure, where the position of the rails with respect to the wheels is indicated by dotted lines.
  • the rails, as shown, are five in number, answering for four tracks, the rst and second rails answering for the first track, the second and third rails for the second track, and so on across the railway.
  • I claim- 1 The employment ot' a water support or caisson in the mannerl and for the purposes described for the overland transportation of vessels between navigable waters; also, the combination of a water tank or basin (for oating a vessel) with a railway-car truck or trucks.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Ship Loading And Unloading (AREA)

Description

UNITED STATES ATENT erica.,
IMPROVEMENT IN MARINE RAILWAYS.
Specification forming of Letters Patent N To all whom it may concern:
Be it known that I, WILLIAM F. CHAN NING, ot' the city and county of Providence, and State of Rhode Island, have invented an improved method of overland transportation of vessels between navigable waters; and I do hereby declare that the following, taken in connection with the drawings which accompany and form part of this specification, is a. description of my invention sut'ticient to enable those skilled in the art to practice it.
This invention relates to the overland trans portation ot' ships, gunboats, river boats, and other vessels from one navigable water to another. Canals between and connecting such waters have been to some extent constructed, and propositions have of late been made to build marine-railways instead of canals, by which vessels can be transported from one water to the other without detriment or breaking of bulk, the vessel to be lioated into an open cradle or frame by which it is supported in transitu. On a small scale this has already7 been done upon canals, the railway being employed instead of locks, and the boat moved in a frame upon a truck or carriage over the incline between the high and low waters ot` the canal. By my invention, however, I dispense with a cradle or frame and transport the vessel while tioated. For this purpose the opposite termini ofthe railway extending into the lake or other water, from or into which the boat is taken are provided with docks, a section ot' the railway extending over or into each of these docks and having suitable maehinery applied by which it can be raised and lowered in the dock. Upon this section a railway-carriage is run, said carriage having mounted upon it and properly supported a Water tank or caisson, which is raised and lowered with the terminal section of the railway. This carriage and caisson being run over or into the dock, the terminal section, and with it the railway-carriage and its caisson, are lowered or depressed in the dock to a depth sufficient to allow the vessel to be transported to float over the caisson. The railway-section is then raised until at the proper height to connect with the main track, the vessel being raised with and loated in the caisson, and being in this condition transported overland with ease and facility and without such straining and wrenching of the frame of the vessel l l i as must inevitably occur when transported in a frame and without the aid ot' a water support.
My invention, therefore, may be said to consist primarily in this method ot' transporting a vessel overland-that is to say, by means of a water support into which the vessel is oated in one lake, basin, or river, and from which, at'tcr overland transportation, it is floated into the lake, basin, or other water atthe oppo site end of the railway.
In connection with this method of transportation I employ a multiple track, which will be hereinafter described, and which, with some minor features, forms part of my invention.
Figure l ot' the drawings represents in elevation a portion of the railway, with one of' the termina-1 docks, and its terminal railwaysection, and the watercaisson and carriage. Fig. 2 is a plan of the same. Fig. 3 is a side elevation ot' the watercaisson. Fig. 4, an end view thereof; and Fig. 5, areversed plan ofthe water-caisson, carriage, or frame.
a denotes the main railway; b, one of the terminal sections thereof, supported in proper position with respect to the nain way over a dock or basin, c, which opens into the waters from which or to which the vessel is to be transported. This terminal section b is so constructed and supported with reference to the dock or basin c that it can be raised and lowered in the same by any suitable mechanism. In Fig. l this section is shown as supported upon vertical screw-shafts turning in nuts placed in a stationary bed-piece, the shafts being geared together so as to be rotated simultaneously to raiseand lower the section. Tho railway-carriage or truck-frame is shown at d, it being provided with car axles and wheels placed at such distances apart as to give the requisite support to the carriage. Upon the top of this railway carriage or frame is placed an open tank or water-containing vessel, e, to which, in connection with the carriage which supports it, I give the name of water-caisson. This tank is held in position and strengthened by louttresses, and it'necessary, by a bulwark or such other means of support as may be required to sustain the sides of the tank. This water-caisson is so connected with the movable section b as to be raised and lowered with it when run thereupon, for the purpose of submerging the tank. The tank is of such capacity as to oat any vessel which may require to be moved upon it, and the section b and water-caisson c, sublnerge to such depth as t0 allow the vessel to freely float over the caisson, as shown in Fig. l. Being in this position, the section b is raised, taking up with it the caisson and the floated vessel, until the track of the section connects with the main track. To draw the caisson up the inclination nearest the bank, a stationary engine may be used either alone or connection with a locomotive, a locomotive engine or engines being employed for drawing the caisson-carriage from one water to the other, as may be required.
The construction of the railway over which the vessel-containing car runs is as follows: A multiple series of rails is used, as seen in Fig. 2, they being arranged at such distances apart that, with the exception ofthe two outer rails, each rail may support the adjacent wheels of successive axles not in line. This will be better understood by reference to Figs. 2, 4, and 5, and particularly the latter ligure, where the position of the rails with respect to the wheels is indicated by dotted lines. The rails, as shown, are five in number, answering for four tracks, the rst and second rails answering for the first track, the second and third rails for the second track, and so on across the railway. Thus the inner rail,f, of the outer track may have the wheels g ot' the outer axles and the wheel or wheels h of other sets of axles ruiming upon them, the opposite wheel or wheels t' ot' this latter set running upon the samerail 7c as do the adjacentwheels l of axles placed laterally with respect to the axles of the wheels h. This arrangement enables the car to be supported upon fewer rails and the weight to be more equally distributed over the whole frame than if only two series of axles were used running upon parallel and separate tracks. This arrangement of the rails may be varied, but I prefer an arrangement substantially like this. The number and disposition of the wheels and axles will, ofcourse, be varied to suit the requirements of transportation. The trucks upon which the wheels are supported are made capable of horizontal swiveling motion to the extent required to enable the car to run around slight curves of the railway, and the trucks may be capable of a vertical swiveling movement to whatever extent shall be necessary. To enable the car, however, to pass from an ascending to a descending grade, or vice versa, a tilting table or section, m, may be placed at the angle of the two grades, the table being kept in connection with the rails from which the cars approaches until it runs upon the table, which is then turned by any suitable mechanism until in connection with the track of the'other grade. Near the terminal section at each end of the track laterally moving sections may be constructed, by which cars can be moved from one main track to a parallel one to facilitate the making up and discharging of trains and the transportation to and from each terminus.
To support and to facilitateV the raising and lowering of the terminal section in the dock air-tight compartments, boxes, or other iioats are attached thereto, from which air may be expelled and water introduced to aid in sinking the section, and the water expelled and air introduced to aid in elevating the same, as circumstances. may require.
I claim- 1. The employment ot' a water support or caisson in the mannerl and for the purposes described for the overland transportation of vessels between navigable waters; also, the combination of a water tank or basin (for oating a vessel) with a railway-car truck or trucks.
2. In a marine railway, a compound or multiple railway-track having parallel rails so disposed that each rail, excepting the two outer rails, may serve as a part of a track at each side thereof, in the manner and for the purposes herein described.
3. The combination of a multiple or compound track with a dock or docks at one or both extremities of a marine railway, for transportation of vessels from one body of water to another, as herein described.
l 4. The vertically-moving terminal section of the track, as herein described, constructed and arranged to operate in connection with elevating, supporting, and lowering apparatus, and with the Water support or caisson to receive and discharge the vessel, substantially as set forth. v
In witness whereof I have hereunto set my hand this 1st day of March, A. D. 1865.
XVM. F. CHANNING.
In presence of' FRANcls GoULn, WV. B. GLEAsoN.
US46878D Improvement in marine railways Expired - Lifetime US46878A (en)

Publications (1)

Publication Number Publication Date
US46878A true US46878A (en) 1865-03-21

Family

ID=2116436

Family Applications (1)

Application Number Title Priority Date Filing Date
US46878D Expired - Lifetime US46878A (en) Improvement in marine railways

Country Status (1)

Country Link
US (1) US46878A (en)

Similar Documents

Publication Publication Date Title
US6802684B2 (en) Container tranfer terminal system and method
CN101508328A (en) Mobile harbor for a marine transport system
US1207237A (en) Apparatus for loading and unloading.
US4325667A (en) Freight handling means
US3727776A (en) An integrated system for loading and unloading containers in or from container ships
US2672840A (en) Ship for transportation of wheeled containers
US46878A (en) Improvement in marine railways
JP2017189990A (en) Ships and transportation method using ships
US3561617A (en) Means for the transportation of goods
EP3409573B1 (en) A transport
US576941A (en) Transfer boat
US1611419A (en) Decking device for vehicles
US481405A (en) Nipple
US430353A (en) smith
US1463558A (en) Freight-transferring system
US738084A (en) Floating dock.
US901589A (en) Means for transporting vessels.
US295014A (en) Marine-railway carriage
US749860A (en) harding
US698573A (en) Marine railroad-car transport.
US858314A (en) Coal-handling bridge.
JPS5893693A (en) Dock ship for heavy freight
US1126444A (en) Boat stowing and launching apparatus.
US955130A (en) Ship elevator, cradle, and dock.
RU2180636C2 (en) Method and device for embarkation/debarkation and transportation of heavy off-gauge objects