US134817A - Improvement in dredgers - Google Patents

Improvement in dredgers Download PDF

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US134817A
US134817A US134817DA US134817A US 134817 A US134817 A US 134817A US 134817D A US134817D A US 134817DA US 134817 A US134817 A US 134817A
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scoops
chains
bucket
shaft
teeth
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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
    • E02F3/28Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, i.e. there is either one arm or a pair of arms, e.g. dippers, buckets
    • E02F3/36Component parts
    • E02F3/40Dippers; Buckets ; Grab devices, e.g. manufacturing processes for buckets, form, geometry or material of buckets
    • E02F3/413Dippers; Buckets ; Grab devices, e.g. manufacturing processes for buckets, form, geometry or material of buckets with grabbing device
    • E02F3/4131Dippers; Buckets ; Grab devices, e.g. manufacturing processes for buckets, form, geometry or material of buckets with grabbing device mounted on a floating substructure

Definitions

  • Figure l is an end eleva-tion of the bucket suspended from a crane or derrick, K, and turned upon its side in order to use its outside upper edge and the points M, for cutting.
  • Fig. 2 is a front or side elevation.
  • Fig. 3 is an enlarged view of the cutting-points of the teeth of the scoops.
  • Fig. 4 is an enlarged view of one of the small wheels or pulleys on the rising and sinking shaft. y
  • T T are the outside teeth of the scoops.
  • T is an inside or intermediate tooth.
  • L L and L L are links by which: the teeth T T are trussed or strengthened.
  • P P are cuttingpoints, so made and fastened to thc teeth TT as to be easily removed for sharpening or repairing.
  • I lI are hinges 0r pivots by which the scoops are attached to the frames B B.
  • F F are blocks t-ted between the links L and L', to prevent them from being bent or broken.
  • .a a are arms or links, which connect the scoops with the rising and sinking shaft S, and which open the scoops as the shaft S sinks, and close them as it rises.
  • B B are triangular frames, to which the scoops are hinged at I I.
  • G is a guide or slot in the frames B B, for the shaft S to work in.
  • X is a plate, connecting the upper ends of the rframe B B to one another, and serving as a leader for the operating-chains.
  • S is the rising and sinking shaft, before referred to, having upon itchainwheels of different diameters, and havin gconnected to each end .arms or links a and a.
  • RB and RH are chains or ropes which wind upon and unwind from the large wheel W of the shaft S.
  • UU are chains or ropes which wind upon the small wheels V V as the scoops are closed.
  • l D D are chains or ropes which wind upon the wheels V V in opposite direct-ions to U U, drawing the shaft S down as they wind, and by means of the arms a and a forcing the scoops open.
  • W is the large wheel on the shaft S, before referred to, and has grooves to receive the chains or ropes RB and RH.
  • VV are the small wheels referred to, upon which the chains U U and D D wind, and they are constructed so as to adjust with great accuracy the length ot' those chains.
  • H H are poles or guides, hinged to the bucket and serving both as guides and to keep the bucket pressed down upon the bottom when being operated, as Vshown in Fig. l.
  • C is a ⁇ chain or rope attached to the upper and outside portion of the scoop, and passing up is carried several times around the drum Z on the crane or derrick K, and has its upper end fastened to the guide-poles H H.
  • M M are cuttingpoints .secured to the upper outside edge of the scoops, and are intended to be used as shown in Fig. 1.
  • Q Q is a cross-piece connect ing the guide-poles H H togethenand. also serving 'as a stop to prevent the bucket from turning tool far when the upper outside edge and the points M are used for cutting.
  • K is the crane or derrick, before referred to, from which the bucket is suspended and operated.
  • Z isa drum upon the crane, by which (in connecti'on with the chain or rope O and the guide-poles H H) the Vbucket is turned upon its side, lowered to the bottom, and held down while being filled.
  • the scoops are composed of teeth connected by straps or bars run ning through them and through sleeves which are placed between the teeth, thus leaving the ends ofthe scoops and the spaces betweentll'e teeth and sleeves open, making what is known as skeleton or open-ended scoops.
  • the teeth both outside and intermediate, are made of two plates or slabs of metal secured together with sleeves or distance-pieces between them, thus making them very stiff and strong late; rally, and rendering the attachment ofthe cutting-points P P both simple and strong. They may, however, be made with the plates drawn together at the point, and secured to one another by bolting, riveting, or welding, and these points fitted for cutting.
  • the points P I are made of steel, or steel-tipped iron, and are inserted between the plates of the teeth, the upperend slotted or bored to receive the bar which passes entirely through all the teeth,
  • the arms a and a' which are also connected the shaft S, and near each end are the small wheels V V, and midway between theni the large wheel W.
  • the large wheel W are two separate ropes or chains, RB and RH, the one winding as the other is unwound.
  • the wheels V V are also two sets of ropes or chains, D D and U U, acting reciprocally to each other,
  • One series has one more hole than is found in the other, so that a coincidence of these holes is obtained by a very small movement of the loose plates or flanges, being similar in operation in that respect to the Vernier used on mathematical instruments.
  • Fig. 4 shows the ararrangement to be such that the chains attached to V V may be tightened or slackened by moving the plates an .equal distance from their position, as shown.
  • ment may be varied by increasing or diminishing the number in such series equally by varying that difference, or by 'having other sets of series at a different distance from the center of the shaft.
  • the drum Z passes through guides upon the crane or derrick K, and they are long enough to reachto the bottom which is being excavated. To their upper ends the chain or rope C is fastened, and afterbeing passed several times around the drum Z its lower end is secured to the upper outside edge of the scoop.
  • the drum Z referred to, is under the control of a friction-band, and its-rotationscau be' retarded or entirely checked, it' desired.
  • the bucket can be lowered by slackening the chains or ropes RB and RH equally, and at the same time the chain C is held from overhauling by means of the drum and its frictionband, the weight of the bucket will fall upon C, which will cause it to be turned upon its side with the pointsMMbeneath, and to swing backward until the chain C is vertical, and in that position it is lowered to the bottom by slackening all ⁇ the chains last named simultaneously. rEhe position of the bucket at this time is shown in Fig. 1.
  • This method of operating the bucket has advantages for excavating in hard clayey soils
  • the small Vwheels 'V V constructed and arranged to adjust the chains, in the manner and for the purpose 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)
  • Earth Drilling (AREA)

Description

UNrrED SrATEs PATENT OFFICE.
RALPH e. PACKARD, oE BROOKLYN, NEw YORK.
IMPROVEMENT IN DREDGERS.
Specification forming part of Letters Patent No. 134,817, dated January 14, 1873.
To all whom it may concern:
Beit known that I, RALPH G. PACKARD, of the city of Brooklyn, county of Kings and State of New York, have invented certain new and usef'ul Improvements in Dredging-Machines, of which the following is a specication:
These improvements are intended to make dredgers having scoops which open in halves, or from a center line, more efficient in their action or working, by giving them a wider opening, and by adapting them for various kinds of excavating, and they render them stronger, and are more easily repaired.
The following description and the accompa` nyin g drawing explain my invention.
Figure l is an end eleva-tion of the bucket suspended from a crane or derrick, K, and turned upon its side in order to use its outside upper edge and the points M, for cutting. Fig.
2 is a front or side elevation. Fig. 3 is an enlarged view of the cutting-points of the teeth of the scoops. Fig. 4 is an enlarged view of one of the small wheels or pulleys on the rising and sinking shaft. y
Similar letters of reference indicate correspondin g parts in each figure.
T T are the outside teeth of the scoops. T is an inside or intermediate tooth. L L and L L are links by which: the teeth T T are trussed or strengthened. P P are cuttingpoints, so made and fastened to thc teeth TT as to be easily removed for sharpening or repairing. I lI are hinges 0r pivots by which the scoops are attached to the frames B B. F F are blocks t-ted between the links L and L', to prevent them from being bent or broken.
.a a are arms or links, which connect the scoops with the rising and sinking shaft S, and which open the scoops as the shaft S sinks, and close them as it rises. B B are triangular frames, to which the scoops are hinged at I I. G is a guide or slot in the frames B B, for the shaft S to work in. X is a plate, connecting the upper ends of the rframe B B to one another, and serving as a leader for the operating-chains. S is the rising and sinking shaft, before referred to, having upon itchainwheels of different diameters, and havin gconnected to each end .arms or links a and a. RB and RH are chains or ropes which wind upon and unwind from the large wheel W of the shaft S. UU are chains or ropes which wind upon the small wheels V V as the scoops are closed.l D D are chains or ropes which wind upon the wheels V V in opposite direct-ions to U U, drawing the shaft S down as they wind, and by means of the arms a and a forcing the scoops open. W is the large wheel on the shaft S, before referred to, and has grooves to receive the chains or ropes RB and RH. VV are the small wheels referred to, upon which the chains U U and D D wind, and they are constructed so as to adjust with great accuracy the length ot' those chains. H H are poles or guides, hinged to the bucket and serving both as guides and to keep the bucket pressed down upon the bottom when being operated, as Vshown in Fig. l. C is a `chain or rope attached to the upper and outside portion of the scoop, and passing up is carried several times around the drum Z on the crane or derrick K, and has its upper end fastened to the guide-poles H H. M M are cuttingpoints .secured to the upper outside edge of the scoops, and are intended to be used as shown in Fig. 1. Q Q is a cross-piece connect ing the guide-poles H H togethenand. also serving 'as a stop to prevent the bucket from turning tool far when the upper outside edge and the points M are used for cutting. K is the crane or derrick, before referred to, from which the bucket is suspended and operated. Z isa drum upon the crane, by which (in connecti'on with the chain or rope O and the guide-poles H H) the Vbucket is turned upon its side, lowered to the bottom, and held down while being filled.
The following description explains my invention, the methods of constructing and operating the bucket, and the advantages which it possesses. It will be s een by reference to the drawing, Figs. l and 2, that the scoops are composed of teeth connected by straps or bars run ning through them and through sleeves which are placed between the teeth, thus leaving the ends ofthe scoops and the spaces betweentll'e teeth and sleeves open, making what is known as skeleton or open-ended scoops. The manner of hinging .the scoops at-I I, the attachmentof the arms to central points"uptnrtliem,l
the arrangement of the chains upon the Wheels Vof the rising and sinking shaft,the hinged guide-poles and the chain G,- are Aallapplica ble to the close scoop-bucket, and many of those .`named, together with the trussed outside T T, and the cutting-points P P, are equally as advantageous for buckets whose scoops are hinged at or near the center line, and with arms attached to the outside or circumference. The descriptions herein given, and the claimshereinmade, when not otherwise specified, are intended to apply to all of the forms of buckets named. The skeleton scoops now in use have their outside teethma-de of one heavy forging, and in shape like a mans arm, but nearly at right angles at the elbow. This makes them expensive, and, having no support between the point and the place of attachment of the arms, they are constantly springingand bending when in use, which after a little time causes fracture. To avoid such results the link L is attached to the tooth T as nearthe point as possible and has sufficient length to grasp and hold large objects. At or near the upper end of the link L the link L is attached, connecting it with the tooth T at or near the top. These links or bracesL and. L', as arranged and connected, serve as a truss for the tooth T.4 The filling-piece Fis to prevent the links or braces L and L from bending either laterally or edgewise. The teeth, both outside and intermediate, are made of two plates or slabs of metal secured together with sleeves or distance-pieces between them, thus making them very stiff and strong late; rally, and rendering the attachment ofthe cutting-points P P both simple and strong. They may, however, be made with the plates drawn together at the point, and secured to one another by bolting, riveting, or welding, and these points fitted for cutting. The points P I are made of steel, or steel-tipped iron, and are inserted between the plates of the teeth, the upperend slotted or bored to receive the bar which passes entirely through all the teeth,
thus securing them at that point-,while the lower end is fastened by a rivet through it and the plate on either side of it. The advantage of having a point for the tooth which can be easily and quickly removed when dulled or broken is obvious, since without them the scoops must be taken entirely apart, and when that is accomplished the repointing can only be done with large `res and heavy tools.
Hinging the scoops of buckets at I I at or near the circumference, and opening and clos'- lin g them by means of arms ct a attached at or near the center line, has advantages for working in sand, where the effectiveness depends 'upon the amount of surface scraped over, and
enables a larger object to be grappledand raised. There is a further advantage in hav ing, as in this case, the frame-work all above `,the bottom of the scoops, and being thus protected from blows and shocks experienced in lowering the bucket. p
' The'operation of opening and closing the scoops is as follows: The rising and sinking vshaft S has attached to it, at o'r near the ends,
the arms a and a', which are also connected the shaft S, and near each end are the small wheels V V, and midway between theni the large wheel W. On the large wheel W are two separate ropes or chains, RB and RH, the one winding as the other is unwound. On the wheels V V are also two sets of ropes or chains, D D and U U, acting reciprocally to each other,
ively. Therefore when RB is hauled taut and vRH is slackened the shaft S is rotated, and at the winding up of the chains or ropes D D upon V V, and'by means of links or arms a a the scoops are forced open. The operation of opening the scoops as described has wound up the chain or rope RH and unwound U U. It', then, we reverse the operation by bringing a strain upon RH and slackening RB' the shaft S is rotated in a direction opposite to that in opening and winds up the chains or ropes U U, thus drawing the shaft S up in the slots G, and by means of the arms co and a the scoops are drawn together. It', now, we sup"- pose the scoops to be opened, and in that convated, hauling on RH will close them, and in then be lifted vertically, or while being lifted it and the crane K may be swung toward the place of deposit, which, being reached, it is opened and its load discharged by receiving the whole weight on the cha-in RB, and at the same time slackening RH, as previously def scribed. The attachment ofthe chains in the manner described insures a prompt opcningof the bucket, caused by the leverage which the chain or rope RB has over that on the small wheels V. It also enables the person operating the bucket to swing it in either direction when loaded by bringing a little greater strain upon the chain or rope on the side toward'- which he wishes to swing. He can, if desired, raise the bucket vertically by bringing an equal strain vupon .RB and RH.
The chains or ropes U U and D D winding and unwinding so frequentlywearrapidly, and sometimes unequally. To take up their wear and adjust them accurately, I have made the wheels V V on the shaft S with a center fixed upon the shaft, and having side plates or ilan ges, to which the chains named are secured, bolted to that fixed center, as shown by Fig. 4.
`To make the adjustment accurate there are a series of holes in the anges and a series in the center piece, all of these holes being at the same distance from the center of the shaft. One series has one more hole than is found in the other, so that a coincidence of these holes is obtained by a very small movement of the loose plates or flanges, being similar in operation in that respect to the Vernier used on mathematical instruments. Fig. 4 shows the ararrangement to be such that the chains attached to V V may be tightened or slackened by moving the plates an .equal distance from their position, as shown. This arrange with the inner corners of the scoops and upon as well as reciprocally to RB and RH, respect-J the'same time drawn down in the slots G by dition to be lowered to the bottom to be eXcaclosing they grasp their load. The bucket can.,
ment may be varied by increasing or diminishing the number in such series equally by varying that difference, or by 'having other sets of series at a different distance from the center of the shaft. By this method of adjustment the Wear of the chains can be accurately taken up, insuring an equal strain upon all of them, and the dan ges, being of Wroughtiron, make a strong fastening for the chains. The poles H H are hinged to the shaft or to any other suitable portion of the bucket, and
Y pass through guides upon the crane or derrick K, and they are long enough to reachto the bottom which is being excavated. To their upper ends the chain or rope C is fastened, and afterbeing passed several times around the drum Z its lower end is secured to the upper outside edge of the scoop. The drum Z, referred to, is under the control of a friction-band, and its-rotationscau be' retarded or entirely checked, it' desired. It', then, the bucket can be lowered by slackening the chains or ropes RB and RH equally, and at the same time the chain C is held from overhauling by means of the drum and its frictionband, the weight of the bucket will fall upon C, which will cause it to be turned upon its side with the pointsMMbeneath, and to swing backward until the chain C is vertical, and in that position it is lowered to the bottom by slackening all `the chains last named simultaneously. rEhe position of the bucket at this time is shown in Fig. 1.
Filling the bucket is now effected as follows: The chain'or rope C and the guide-poles H H are now used to hold the bucket from rising by means of the drum Z and its frictionband, and the chains or ropes RB and RH being hauled in the bucketis drawn up and forward, its path boing nearly the arc of a circle whose centerl is the point of tangency of the poles H H to the drum Z. As soon as the bucket lea-ves thel bottom it is then raised, swung, and discharged in the ordinary way, as previously described.
This method of operating the bucket has advantages for excavating in hard clayey soils,
'found in railroad cuttings.
or more especially when adopted in shallow water or for cutting into banks, such as are Constructing a dredger for operating in the manner last described does not in anyrespect unt it for use, as first specified and described, and when so arranged and built it is capable of working in hard or soft materials, in deep or shallow watelg or for cutting into banks.
I claim as my inventionl. The scoops hinged at or near the outside, opening from a center line With links or arms attached at or near the center for opening and closing them, as described and specified.
2. The teeth of skeleton scoops which open froma center line, constructed of two plates of metal secured together, in the manner and for the purpose specified.
3. The links or braces L and L', connected vto the teeth T T of' skeleton scoops, in the manner and for the purpose specified.
4. rllhe cutting-points P P secured to thc teeth of skeleton scoops, in the manner, and for the purpose speciled. y
5. The combination of the chains RB, and I) D, and RII, and U U with the shaft S and its connections, in t-he manner and for the purpose specified.
6. The small Vwheels 'V V, constructed and arranged to adjust the chains, in the manner and for the purpose specified.
7. The adaptation of the upper edge for cutting, of buckets whose scoops open from a Witnesses:
S. GORDON PARKER, A. W. PARKER.
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