US645660A - Dredging. - Google Patents

Dredging. Download PDF

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Publication number
US645660A
US645660A US73345899A US1899733458A US645660A US 645660 A US645660 A US 645660A US 73345899 A US73345899 A US 73345899A US 1899733458 A US1899733458 A US 1899733458A US 645660 A US645660 A US 645660A
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Prior art keywords
cylinder
receptacle
pipe
valve
air
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US73345899A
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Frank M Bell
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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02FDREDGING; SOIL-SHIFTING
    • E02F3/00Dredgers; Soil-shifting machines
    • E02F3/04Dredgers; Soil-shifting machines mechanically-driven
    • E02F3/88Dredgers; Soil-shifting machines mechanically-driven with arrangements acting by a sucking or forcing effect, e.g. suction dredgers
    • E02F3/90Component parts, e.g. arrangement or adaptation of pumps
    • E02F3/92Digging elements, e.g. suction heads

Definitions

  • Patented Mar. 20,I 900. F. M. BELL.
  • VL Arron TN NoRRIsvPErERs co.. PHoYmurHo.. wAsHmGToN. nA c.
  • My invention relates to improvements in apparatus for the excavation and removal of earth, sand, and analogous matter either under water or upon land; and said invention has for its object more particularly to provide asimple, efficient, and economical means for the excavation of said matter and the removal thereof to a place of deposit.
  • A designates a float or other vessel having a centrally arranged opening B therein.
  • a single-cylinder air-compressor C Upon said float A, near its forward end, is arranged a single-cylinder air-compressor C, and beside said air-compressor C is supported a cylinder D, provided with a gage D', and a pipe E, connecting said cylinder D with the compressor C.
  • a single-cylinder vacuumpump F Arranged upon the iioat A', to the rear of the opening B, is a single-cylinder vacuumpump F, and arranged beside the same is a cylinder G, provided with a gage G', and a pipe H, connecting said cylinder G and the vacuum-pump F.
  • I denotes a suitable support arranged over the opening B in the float A, from which support is suspended, by means of a cable I', a cylinder J, provided with vertical guide-rods K K, the said cylinder J and guides K K being adapted to be raised or lowered to any desired position by means of the cable I' and the hoisting-engine K', arranged within the structure K2 on the float A.
  • the cylinder J, I have shown submerged and maintained at an angle, with its forward or discharging end lower than its rear or receiving end.
  • an intake-pipe L' To the raised rear end of said cylinder J is secured, by a universal joint L, an intake-pipe L', provided with a -checkvalve L2 and a scoop-shaped end M.
  • N denotes the discharge-pipe, having one end secured to the forward end of the cylinder J by a universal joint and provided with la check-valve N and the other end of said discharge-pipe N carried upward to the place of deposit and provided with a valve N2.
  • a pipe O which is connected to the submerged cylinder J and provided adjacent to the cylinder D with a valve O' and intermediate said valve O' and the cylinder J with a gage O2 and a quick-acting valve P.
  • valve Q is again closed and the valve O' in the pipe O, leading from the compressed-air cylinder D to the cylinder J, opened and the air under pressure permitted to enter the cylinder J and cause the matter therein to be forced out of said cylinder through the discharge-pipe N to the place of deposit.
  • Valve O' is again closed.
  • the reliefvalve P should be opened and the excess of air permitted to escape until the gage 02111- dicates a pressure about atmospheric in-said IOO cylinder J, and thus prevent the iniiow of water only by Way of the intake-pipe L.
  • the valve Q is again opened and the operation above described repeated, 'and so on.
  • a receptacle adapted to receive excavated matter, a vacuum-receptacle and a receptacle containing air under pressure; said receptacles being connected to the receptacle first mentioned, and valve mechanism for alternately placing said first-mentioned receptacle in communication with the vacuumreceptacle and the receptacle containing air under pressure whereby to cause the excavated matter to be drawn into said first-mentioned receptacle, and thence discharged therefrom, substantially as specified.
  • a submergeable receptacle adapted to receive excavated matter, intake and discharge pipes connected to said receptacle, checkvalves arranged in said pipes, an air-compressing apparatus, a receptacle adapted to receive the compressed air connected to said compressing apparatus and the submergeable receptacle, an exhausting apparatus, a receptacle adapted to be exhausted connected to said exhausting apparatus and said submergeable receptacle, and valve mechanism for controlling the ingress and egress of fluids and matter to and from the submergeable receptacle, substantially as specified.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Sewage (AREA)

Description

Patented Mar. 20,I |900. F. M. BELL.
D R E D G I N G.
Application med oct. 1S, 1899.)
(No Model.)
W/ TNE SSE S er M5222,
VL Arron TN: NoRRIsvPErERs co.. PHoYmurHo.. wAsHmGToN. nA c.
NITED STATES PATENT OFFICE..
FRANK M. BELL, OF NEIY YORK, N. Y.
DREDGING.
SPECIFICATION forming part of Letters Patent No.'645,660, dated March 20, 1900.
' Application filed October 13, 1899. Serial No. 733,458. (No model.)
To all whom it may concern,.-
Be it known that I, FRANK M. BELL, acitizen of the United States, residing at the city of New York, in the county and State of New York, have invented certain new and useful Improvements in Dredging, of which the following is a full, clear, and exact specification.
My invention relates to improvements in apparatus for the excavation and removal of earth, sand, and analogous matter either under water or upon land; and said invention has for its object more particularly to provide asimple, efficient, and economical means for the excavation of said matter and the removal thereof to a place of deposit. These objects above set forth I am enabled to attain by means of my invention, which consists in the novel details of construction and in the combination, connection, and arrangement of parts, as hereinafter more fully described and then pointed out in the claims.
In the' accompanying drawing, forming part of this specification, I have shown by a perspective view an apparatus constructed according to and embodying my invention.
In said drawing, A designates a float or other vessel having a centrally arranged opening B therein. Upon said float A, near its forward end, is arranged a single-cylinder air-compressor C, and beside said air-compressor C is supported a cylinder D, provided with a gage D', and a pipe E, connecting said cylinder D with the compressor C.
Arranged upon the iioat A', to the rear of the opening B, is a single-cylinder vacuumpump F, and arranged beside the same is a cylinder G, provided with a gage G', and a pipe H, connecting said cylinder G and the vacuum-pump F.
I denotes a suitable support arranged over the opening B in the float A, from which support is suspended, by means of a cable I', a cylinder J, provided with vertical guide-rods K K, the said cylinder J and guides K K being adapted to be raised or lowered to any desired position by means of the cable I' and the hoisting-engine K', arranged within the structure K2 on the float A.
The cylinder J, I have shown submerged and maintained at an angle, with its forward or discharging end lower than its rear or receiving end. To the raised rear end of said cylinder J is secured, by a universal joint L, an intake-pipe L', provided with a -checkvalve L2 and a scoop-shaped end M.
N denotes the discharge-pipe, having one end secured to the forward end of the cylinder J by a universal joint and provided with la check-valve N and the other end of said discharge-pipe N carried upward to the place of deposit and provided with a valve N2.
From the air-cylinder D extends a pipe O, which is connected to the submerged cylinder J and provided adjacent to the cylinder D with a valve O' and intermediate said valve O' and the cylinder J with a gage O2 and a quick-acting valve P.
From the vacuum-cylinder G extends a pipe Q, `which is also connected to the submerged cylinder J and provided near its upper end with a valve Q', and a gage Q2, arranged intermediate said valve Q and the cylinder J Y The operation of the apparatus is as follows: If We assume the cylinder D to contain air under suitable pressure, as indicated byV its gage D', and the cylinder G to be exhausted to the requisite degree, as indicated by its gage G', the engine Cl and F, working to maintain the air-pressure and vacuum in their respective cylinders and the cylinder J in proper position, it then simply becomes necessary to open the valve Q' in the pipe Q, leading from the cylinder G to the cylinder J, whereupon the air will be exhausted from said cylinder J and the water and matter loosened by the .scoop M of the intake-pipe L' caused to be drawn into said cylinder J. As soon as the cylinder J is iilled the valve Q is again closed and the valve O' in the pipe O, leading from the compressed-air cylinder D to the cylinder J, opened and the air under pressure permitted to enter the cylinder J and cause the matter therein to be forced out of said cylinder through the discharge-pipe N to the place of deposit. As soon as the contents of the cylinder J has been discharged the Valve O' is again closed. Should an excess of air under pressure remain in the cylinder J after its contents have been discharged, the reliefvalve P should be opened and the excess of air permitted to escape until the gage 02111- dicates a pressure about atmospheric in-said IOO cylinder J, and thus prevent the iniiow of water only by Way of the intake-pipe L. Hereupon the valve Q is again opened and the operation above described repeated, 'and so on.
It will be observed that by means of the apparatus herein shown and described I am enabled to accumulate air Linder pressure in sufcient quantity to quickly lift the excavated matter from the cylinder J While the cylinder Gis drawing the matter into the cylinder J and that I obtain the required vacuum in the cylinder Gr while the air from the cylinder D is forcing the matter from the cylinder J. It will thus be apparent that the operation of my apparatus is an alternating one and that by employing a plurality of receiving-cylinders J and properly connecting the same with the intake-pipe and discharge -pipe I can maintain a constant discharge of matter through the pipe N-. It is to be further observed that while I have shown the cylinder J submerged I do not wish to limit or confine myself to this feature, as the said cylinder may be placed either under or over water. Neither do I wish to limit or conne myself to the details of construction, which may be varied within the scope of the invention.
I-Iaving thus described my invention, what I claim, and desire to secure by Letters Patent, is
l. In an apparatus of the character specied,a receptacle adapted to receive excavated matter, a vacuum-receptacle and a receptacle containing air under pressure; said receptacles being connected to the receptacle first mentioned, and valve mechanism for alternately placing said first-mentioned receptacle in communication with the vacuumreceptacle and the receptacle containing air under pressure whereby to cause the excavated matter to be drawn into said first-mentioned receptacle, and thence discharged therefrom, substantially as specified.
2. In an apparatus of the character speciiied, a submergeable receptacle adapted to receive excavated matter, intake and discharge pipes connected to said receptacle, checkvalves arranged in said pipes, an air-compressing apparatus, a receptacle adapted to receive the compressed air connected to said compressing apparatus and the submergeable receptacle, an exhausting apparatus, a receptacle adapted to be exhausted connected to said exhausting apparatus and said submergeable receptacle, and valve mechanism for controlling the ingress and egress of fluids and matter to and from the submergeable receptacle, substantially as specified.
3. In an apparatus of the character specitied, the combination with a suitable support, of a submergeable receptacle, means for rais= ing and lowering the same, intake and discharge pipes connected to said submergeable receptacle, checkvalves arranged in said pipes, an aircompressor and a receptacle adapted to receive the compressed air connected thereto disposed upon the support, a pipe connecting the compressed-air receptacle, and the submergeable receptacle, a
valve and a gage arranged in said pipe, a
vacuum-pump and a receptacle adapted to be exhausted connected thereto disposed upon the-support, a pipe connecting said vacuum receptacle and submergeable receptacle, a valve and a gage arranged in said pipe, and a relief-valve provided in the pipe leading from the compressed-air receptacle to the submergeable receptacle, and disposed intermediate said submergeable receptacle and the valve controlling the admission of air under pressure thereto,substantially as specified.
Signed at the city of New York,in the county and State of New York, this 11th day of October, 1899.
FRANK M. BELL.
Witnesses:
GUsTAvE DIETERICH, JOHN KEHLENBECK.
US73345899A 1899-10-13 1899-10-13 Dredging. Expired - Lifetime US645660A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3260004A (en) * 1963-09-09 1966-07-12 Mobil Oil Corp Deep-sea mining method
US4004357A (en) * 1972-03-17 1977-01-25 Giovanni Faldi Two stroke dredging plant
US4307525A (en) * 1979-08-16 1981-12-29 Amtec Development Company Pneumatic-hydraulic pump dredge
US4353174A (en) * 1980-08-11 1982-10-12 Amtec Development Company Electronic control system for pneumatic-hydraulic pump dredge

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3260004A (en) * 1963-09-09 1966-07-12 Mobil Oil Corp Deep-sea mining method
US4004357A (en) * 1972-03-17 1977-01-25 Giovanni Faldi Two stroke dredging plant
US4307525A (en) * 1979-08-16 1981-12-29 Amtec Development Company Pneumatic-hydraulic pump dredge
US4353174A (en) * 1980-08-11 1982-10-12 Amtec Development Company Electronic control system for pneumatic-hydraulic pump dredge

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