US2958323A - Stone cutting apparatus - Google Patents

Stone cutting apparatus Download PDF

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Publication number
US2958323A
US2958323A US711823A US71182358A US2958323A US 2958323 A US2958323 A US 2958323A US 711823 A US711823 A US 711823A US 71182358 A US71182358 A US 71182358A US 2958323 A US2958323 A US 2958323A
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Prior art keywords
wire
stone
wires
grooves
wheels
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US711823A
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Nic L Knoph
Jr John B Jones
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Ty SA Man Machine Co
TY-SA-MAN MACHINE Co
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Ty SA Man Machine Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D57/00Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00
    • B23D57/0007Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00 using saw wires
    • B23D57/0023Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00 using saw wires with a plurality of saw wires or saw wires having plural cutting zones
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D57/00Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00
    • B23D57/003Sawing machines or sawing devices working with saw wires, characterised only by constructional features of particular parts
    • B23D57/0053Sawing machines or sawing devices working with saw wires, characterised only by constructional features of particular parts of drives for saw wires; of wheel mountings; of wheels
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D1/00Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
    • B28D1/02Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
    • B28D1/08Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing with saw-blades of endless cutter-type, e.g. chain saws, i.e. saw chains, strap saws

Definitions

  • This invention relates to stone cutting apparatus, and more particularly to wire-guiding wheels for stone saws of the type in which a plurality of moving lengths of Wire are caused to pass through -a stone in order to subdivide it into a plurality of slabs.
  • Stone usually is removed from a quarry in large blocks which are too massive for ordinary uses. These blocks then are subdivided into a plurality of smaller slabs and used in buildings, ornamental structures, and the like, At the present time, the stone requirements of the building industry are restricted almost entirely to slabs of brick-course heights or widths, i.e., slabs of widths which correspond to the heights of the various types of bricks and cement blocks in general use for building purposes. These are standards in the trade, and are well known. By way of example, it may be mentioned that two and one-quarter inches, three and fiveeighths inches, tive inches, and seven and three-quarters inches are representative brick-course heights.
  • the subdivision of the large blocks of stone received from a quarry into smaller slabs usually is accomplished through the use of a wire saw.
  • a wire saw In such saws, a mixture of water and abrasive material is fed to the stone, and a plurality of parallel running lengths of wire move the abrasive along in contact with the stone to produce cuts extending parallel to the paths of the wires.
  • the vwires move bodily in a direction approximately at right angles to their lengths, so that, after a time, the cuts will extend entirely through the stone in parallel planes.
  • the running lengths of wire employed in wire saws were guided by two groups of coaxially mounted wheels disposed upon opposite sides of the stone to be cut, with the cutting path of each wire being established by one wheel from each of the two groups.
  • the several wheels of each group were mounted upon a common shaft for axial adjustment relative to each other, so that the spacing between adjacent wheels might be changed when it became necessary to alter the distances between the paths of the several Wires. Such adjustments were necessary whenever different sizes of stone slabs were required.
  • Another object of this invention is to provide Wire saws with improved wire-guiding means which will obviate the necessity for using groups of axially adjustable wheels for guiding the running lengths of wire.
  • Another object of this invention is to provide improved wire-guiding means for wire saws which will enable the spacing of the wires to be changed from one standard position to another without the necessity for accurate measurements on the part of the operator of the saw.
  • Yet another object of this invention is to provide improved wire-guiding means which will be relatively inexpensive to manufacture and which will be durable under the corrosive service conditions encountered in wire saws for cutting stone.
  • One of the multiple-groove wheels may be positioned on each side of the stone to be cut and rotatably mounted upon a movable frame which can be moved so as to cause the wires carried by the wheels to pass through the stone.
  • the number of grooves in each wheel preferably exceeds the number of cuts to be made by the machine, and the spacing of the several grooves preferably is such that, by positioning the wires in different groups of grooves, it is possible to produce cuts of a variety of ditferent standard widths.
  • This arrangement greatly simplies the problem of adjustment of the machine. Whenever slabs of different widths are required, all that need be done by the operator is to shift the wires from one set of grooves to another set.
  • the wheels themselves require no adjustment at all and they may be mounted permanently upon their shafts.
  • the multiple-groove wheels of this invention preferably are of aluminum.
  • Such structures are relatively inexpensive to manufacture, and they are not subject to corrosion in any material degree, Abrasion of the walls of the grooves in the wheels may be ⁇ eliminated by providing each of the grooves with a replaceable rubber liner.
  • Fig. 1 is a diagrammatic elevational view of a typical stone cutting machine in which the present invention may be utilized;
  • Fig. 2 is a cross sectional view of a peripheral portion of one of the Wire-guiding wheels .in the machine shown in Fig. 1;
  • Fig. 3 is a partial side elevational view of the wheel of Fig. 2;
  • Fig. 4 is a partial end elevational view of the wheel of Fig, 2;
  • Fig. 5 is a diagram suggesting several possible dispositions of the saw wires in the grooves of the wireguiding wheels.
  • Machines of the type illustrated in Fig. l are well known, and it will not be necessary to describe the various components in detail. However, a general explanation of the machine and its mode of operation will be stationary during cutting operations, but it maybe-moved v along Vthe .tracks .24 before vor' afterA the-cutting opera-4 tion to facilitate theV handlingand. positioning of the block 20.
  • the-carriage 22 Disposed: on oppositesides of; the-carriage 22 arerigid uprightsz26 ⁇ which extend upwardly substantial distances above .theblockof stone 2t).y and Vare connected together at their upper ends by a beam 28 to formf astationary mahneframe.
  • brackets 32A Depending from the platform 30 atl locations on opposite sides of the'carriage 22 are ⁇ brackets 32A upon which ⁇ rotatable wire-carrying wheels A34 ⁇ and 36 are mounted.
  • the movable frame also carriesa motor (not illustrated) for driving-the Wheel 36 and suitable feed means for; controlling the vertical4 movementsv of the, movable frame.
  • the feed means includes a cable winding device 38 which cooperates with a cable 40 xed at one end tothe platform 30 by a fitting 42 andpassing over guides 44 and 46 attached, respectively, to thecross beamv 28 of the stationary frame and to the platforirr30- ⁇
  • the cable 40 is;woundtv onto the cable winding device. This :results ina .decrease in the length of the'portion of ⁇ thecable 40.extending from the device 38 to the fitting 42 so that the movable frame must move upwardly.
  • the cable 40 is unwound, and the movable frame moves downwardly under the intluence of gravity.
  • One or more long saw wires 48 pass around the wheels 34 and 36 and are guided thereby along horizontal, cuttinghruns ⁇ over the carriage 22 supporting the block of stone. Although these wires need be nov longer than would be required for them to pass in closed loops around the two wheels 34 and 36 on the vertically movable frame of the machine, sometimes it is desirable that they be extended over additional guidev wheels 50, 52, and 54 spaced from the actual cutting portion of the machine.
  • the wheel 50 may be spaced fromV the carriage a distance of a hundred feet or more and may be. mounted for rotation upon a suitable framework 56 which ordinarily isof such construction as to permit bodily movement of the wheel 50 when itis necessaryy to adjust the tension in the wires 48.
  • the wheels 52 and 54 also are mounted upon a suitable frame 58, but this frame should be in the immediate vicinity of the main frame of the machine so that the wheels 52 and 54 may serve effectively to control the directions of movement of the wires 48 to the wheel 36 and from the wheell 34.
  • Fig. l commonly is referred to in the trade as a long wire machine, because of the very substantial lengths of the wires 48.
  • Such machines are preferred by many operators. Since only a very smallA portion of each wire 48 issubject to abrasion at any particular moment, the wear on the wires is spread outl along the lengths of the wires in such a manner that it is not necessary to replace the wires at frequent intervals.
  • the invention alsol is applicableto, the so.-cal1edj.short,
  • the abrasive mixture is fed from a suitable supply Vchamber 60-through a flexible conduit 62 to a dis tribution block 64 attachedV to the upper face. of the stone 20 being cut.
  • a suitable supply Vchamber 60 to a flexible conduit 62 to a dis tribution block 64 attachedV to the upper face. of the stone 20 being cut.
  • conduits 62 and distribution blocks 64 there may be as many conduits 62 and distribution blocks 64 as there are cutting runs of the Wires 48.
  • Each block 64 is positioned immediately adjacent to the plane of; movement of the cutting run of a wire 48, and feeds abrasive directly into the cut being formed thereby.
  • the wheel 36 includes a hub portion 66, a generally cylindrical rim portion 68, and a plurality of radial spokes 70 extending-'betwen the hub 66 and the rim 68.
  • the hub 66 is adapted to be permanently mounted upon a transversely extending shaft carried by the movable frame of the machine.
  • the hub 66- is keyed or otherwise fixed against rotation relative to its shaft.
  • the wheel 34 which serves as an idlerl in thewire-guiding system, may be rotatably mounted upon a fixed shaft or it may be keyed to a rotatable shaft.
  • each of the spokes 70 is shaped to give the wheel good strength and rigidityy characteristics and to minimize the overall.V mass of the wheel.
  • each of the spokes 70 - is lgenerally cruciform in cross sectional shape.
  • An arcuately elongated central portion 72 of each spoke 70 extends from the central portion of the rim 68 of the wheel, and laterally extending anges 74 give the structure transverse rigidity.
  • the rim portion 68 of the wheel is provided with aA large number of. circumferential grooves 76.
  • the number of grooves 76 exceeds the number of running lengths of wire 48 used in the stone cutting operation, and the grooves 76 are spaced apart along the length of the rim 68 of the wheel so that the spacing of the wires 48 may be changed by shifting them from one set of grooves 76 to another.
  • each groove 76 is provided with a liner 78.
  • These liners preferably are of rubber, but it will beapparent to persons skilled in the art that any other suitable-material may be used forfthispurpose, It ⁇
  • the 'signiiicance of the spacing of the grooves 76 in the wheel 36 can best be explained by referring to the diagram shown in Fig. 5. At the top of this view there is a schematic representation of the rim portion of a wheel 36a, and below the wheel, five different arrangements of the wires 48a are suggested.
  • the wheel 36a may be identical to the wheel 36 of Fig. 2 an attempt has been made to simplify Fig. 5 by omitting the liners 78 disposed within the circumferential grooves and by illustrating the outlines of the grooves as they would appear with the liners 7S in place.
  • the several grooves in the wheel 36a have been numbered 1 through 13 from right to left, to facilitate reference to them.
  • the uppermost wire arrangement pattern suggested in Fig. 5 is designated by the letter A. LIn this pattern, the tive wires 48a are disposed in grooves 2, 4, 5, I7, and 9. As indicated by the legend at the top of Fig. 5, the spacing between the axes of adjacent ones of these grooves is a 21%2 inches. Since the width of a cut produced by a wire normally is about 7/32 of an inch, the use of pattern A will result in the production of four slabs or cuts of stone, each having a width of 2% inches. This width is a standard in the building industry in that it conforms to a standard brick-course height.
  • pattern A is the arrangement illustrated in Fig. 2 of the drawings. Slabs of 21A inch width constitute the bulk of the output of many producers, and pattern A results in maximum production of this width. However, the present invention is not limited to the production of slabs of a single width. When other widths are required, the wires 48a may be shifted to a diiierent group of grooves in the wheel 36a.
  • the present invention greatly simplifies the problem of resetting the spacing of the wires of a wire saw.
  • the operator of the machine need only shift the wires -48 from one set of grooves 76 to another set. Since the multiple-groove wheels of this invention need never be shifted axially along the shafts upon which they are mounted, the resetting operations can be carried out quickly and easily even though the surfaces of the shafts themselves are corroded. This has not been possible heretofore.
  • the present invention enables the operator of the machine to make more accurate settings. Since no measurements are required in resetting the wires, the operations may be carried out by relatively unskilled labor without danger of costly errors.
  • the illustrated multiple-groove wheel 36 is particularly adapted for use on a machine having live wires 48, it will be apparent that it is not restricted to such use. If desired, the wheel 36 may be used to guide a larger or smaller number of wires. Also, the spacing of the circumferential grooves 76 in the wheel may be varied as necessary in order to meet particular requirements without departing from the principles of the invention.
  • a wheel for guiding the wires of stone sawing apparatus of the type in which moving lengths of wire are caused to pass through the stone to be cut comprising a cast aluminum member having a hub portion, a rim portion and a plurality of spokes extending between said hub and rim portions, said rim portion having an elongated cylindrical external surface provided with a plurality of axially spaced apart, circumferentiatlly extending, wire-receiving grooves therein, said grooves being spaced irregularly along the length of said external surface, the spacing between said grooves being such that different combinations of brick-course height slabs may be cut from the stone by disposing the moving lengths of wire in different sets of grooves, and an annular rubber liner disposed within each of said grooves in position to prevent the wires from contacting the walls of said grooves.
  • Stone sawing apparatus comprising stationary frame means, means for supporting ⁇ a stone to be cut, movable frame means mounted on said stationary frame means for movement toward and away from the stone to be cut, a pair of wheels carried by said movable frame means on opposite sides of the stone, and a plurality of running lengths of wire guided by said wheels along spaced apart paths so that upon movement of said movable frame means said wires may cut the stone, each of said wheels including an axially elongated unitary rim portion having a plurality of spaced circumferential wire-receiving grooves formed directly therein, the number of said grooves being in excess of the number of said running lengths of wire ⁇ so that the spacing between the wire paths may be varied by utilizing different sets of grooves to guide the lengths of wire.
  • Stone sawing apparatus comprising stationary frame means, means for supporting a stone to be cut, movable frame means mounted on said stationary frame means for movement toward and away from the stone to be cut, a pair of wheels carried by said movable frame means on opposite sides of the stone, and a plurality of running lengths of wire guided by said wheels along spaced apart paths so that upon movement of said movable frame means said wires may cut the stone, each of said wheels including an axially elongated unitary rim portion having a plurality of irregularly spaced circumferential wire-receiving grooves formed directly therein, the number of said grooves being in excess of the number of said running lengths of wire so that the spacing between the wire paths may be Varied by utilizing diiferent sets of grooves to guide the lengths of wire, and the spacing between said grooves being such that different combinations of brick-course height slabs may be cut from the stone by disposing the lengths of wire in different sets of grooves.
  • a wheel for guiding the wires of sawing apparatus of the type in which moving lengths of wire are caused to pass through the material to be cut comprising a metal member having a hub portion, a rim portion and connecting means extending between said hub and rim portions, said rim portion having an elongated cylindrical external surface provided with ya plurality of axially spaced apart, circumferentially extending, wire-receiving grooves therein, said grooves being spaced irregularly along the length of said external surface, the spacing between said grooves being such that different widths of material may be cut by disposing the moving lengths of wire in different sets of grooves.
  • Afwheel for. guidingthel wires of sawing apparatus of the type in which moving lengths of generally round wire ⁇ are causedV to pass through the material to bey cut, comprising a metal member having a hubportion, a rim portion and a, plurality of spokesv extending between saidhubrand rim portions, said rim portion having an elongatedbcyljndrical 1 external surface provided Witlra plurality of axially spaced-apart, circumferentiallyl ex,- tending, wire-receiving grooves therein, each of; said grooveshaving; a; curvedbottomrupon which saidk round 10 said groovesbeing such that diiferent Wdthsyof material may bereut yby depositingthernoving lengths of Wire in different setsof; grooves', ⁇ andv a11;aI1nular ⁇ rubber liner dislsvosed-within-v each of Asaid grooves. in; ⁇ position; to ,preventI

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  • Mining & Mineral Resources (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)

Description

Nov. l, 1960 N. 1 KNOPH ETAL 2,958,323
STONE CUTTING APPARATUS Filed Jan. 29, 1958 3 Sheets-Sheet l ATTORNEYS NOV. l, N, KNOPH ETAL STONE CUTTING APPARATUS Filed Jau. 29, 195B 3 Sheets-Sheet 2 IN VENTORS BY M ATTORNEYS Nov. 1, 1960 N. 1 KNoPH ETAT.
sToNE CUTTING APPARATUS Filed Jan. 29, 1958 3 Sheets-Sheet 3 @mmm Smm
INVENTOR wks ml States STONE CUTTING APPARATUS Filed Jan. 29, 1958, Ser. No. 711,823
Claims. (Cl. 12S-21) This invention relates to stone cutting apparatus, and more particularly to wire-guiding wheels for stone saws of the type in which a plurality of moving lengths of Wire are caused to pass through -a stone in order to subdivide it into a plurality of slabs.
Stone usually is removed from a quarry in large blocks which are too massive for ordinary uses. These blocks then are subdivided into a plurality of smaller slabs and used in buildings, ornamental structures, and the like, At the present time, the stone requirements of the building industry are restricted almost entirely to slabs of brick-course heights or widths, i.e., slabs of widths which correspond to the heights of the various types of bricks and cement blocks in general use for building purposes. These are standards in the trade, and are well known. By way of example, it may be mentioned that two and one-quarter inches, three and fiveeighths inches, tive inches, and seven and three-quarters inches are representative brick-course heights.
The subdivision of the large blocks of stone received from a quarry into smaller slabs usually is accomplished through the use of a wire saw. In such saws, a mixture of water and abrasive material is fed to the stone, and a plurality of parallel running lengths of wire move the abrasive along in contact with the stone to produce cuts extending parallel to the paths of the wires. In addition to their linear motions, the vwires move bodily in a direction approximately at right angles to their lengths, so that, after a time, the cuts will extend entirely through the stone in parallel planes.
Prior to the present invention, the running lengths of wire employed in wire saws were guided by two groups of coaxially mounted wheels disposed upon opposite sides of the stone to be cut, with the cutting path of each wire being established by one wheel from each of the two groups. The several wheels of each group were mounted upon a common shaft for axial adjustment relative to each other, so that the spacing between adjacent wheels might be changed when it became necessary to alter the distances between the paths of the several Wires. Such adjustments were necessary whenever different sizes of stone slabs were required.
The task of adjusting the individual wheels was a very time consuming one. Even when the equipment was in good condition, it frequently took from three to four hours to reset the wire-guiding wheels. Moreover, the wheels and their shafts were continuously subjected to contact with water and abrasive material during the operation of the apparatus, so that rust and corrosion was a very serious problem. After a relatively short period of use, it was not unusual to find that a wheelsupporting shaft had corroded so badly that axial adjustment of the wheels was virtually impossible. In such situations, the resetting of the wire paths often took the saws out of production for a period of one or more days. t
Another diiculty encountered in setting up groups of coaxial wire-guiding wheels for the production of 2,958,323 Patented Nov. l, 1960 standard brick-course heighths of stone was that the distance between each pair of adjacent wheels had to be measured accurately every time an adjustment was to be made. This tedious procedure not only was time consuming but also required considerable skill.
It is an object of this invention to overcome the objections and disadvantages noted above and to provide stone cutting apparatus which can be adjusted quickly and easily so as to produce cuts of a variety of predetermined widths.
Another object of this invention is to provide Wire saws with improved wire-guiding means which will obviate the necessity for using groups of axially adjustable wheels for guiding the running lengths of wire.
Another object of this invention is to provide improved wire-guiding means for wire saws which will enable the spacing of the wires to be changed from one standard position to another without the necessity for accurate measurements on the part of the operator of the saw.
Yet another object of this invention is to provide improved wire-guiding means which will be relatively inexpensive to manufacture and which will be durable under the corrosive service conditions encountered in wire saws for cutting stone.
The foregoing objects may be accomplished, according to one embodiment of the invention, by utilizing novel multiple-groove wheels to establish the cutting paths of the running lengths of wire in a wire saw. One of the multiple-groove wheels may be positioned on each side of the stone to be cut and rotatably mounted upon a movable frame which can be moved so as to cause the wires carried by the wheels to pass through the stone.
The number of grooves in each wheel preferably exceeds the number of cuts to be made by the machine, and the spacing of the several grooves preferably is such that, by positioning the wires in different groups of grooves, it is possible to produce cuts of a variety of ditferent standard widths. This arrangement greatly simplies the problem of adjustment of the machine. Whenever slabs of different widths are required, all that need be done by the operator is to shift the wires from one set of grooves to another set. The wheels themselves require no adjustment at all and they may be mounted permanently upon their shafts.
In order to combat corrosion, the multiple-groove wheels of this invention preferably are of aluminum. Such structures are relatively inexpensive to manufacture, and they are not subject to corrosion in any material degree, Abrasion of the walls of the grooves in the wheels may be `eliminated by providing each of the grooves with a replaceable rubber liner.
A more complete understanding of the invention and its many advanaages will be gained from a consideration of the following `detailed description of the embodiment illustrated in the accompanying drawings, in which:
Fig. 1 is a diagrammatic elevational view of a typical stone cutting machine in which the present invention may be utilized;
Fig. 2 is a cross sectional view of a peripheral portion of one of the Wire-guiding wheels .in the machine shown in Fig. 1;
Fig. 3 is a partial side elevational view of the wheel of Fig. 2;
Fig. 4 is a partial end elevational view of the wheel of Fig, 2; and
Fig. 5 is a diagram suggesting several possible dispositions of the saw wires in the grooves of the wireguiding wheels.
Machines of the type illustrated in Fig. l are well known, and it will not be necessary to describe the various components in detail. However, a general explanation of the machine and its mode of operation will be stationary during cutting operations, but it maybe-moved v along Vthe .tracks .24 before vor' afterA the-cutting opera-4 tion to facilitate theV handlingand. positioning of the block 20.
Disposed: on oppositesides of; the-carriage 22 arerigid uprightsz26` which extend upwardly substantial distances above .theblockof stone 2t).y and Vare connected together at their upper ends by a beam 28 to formf astationary mahneframe. This stationary frame'serves both tosupport and to` guide a vertically movable frame comprising 1 an horizontal platform 36. Depending from the platform 30 atl locations on opposite sides of the'carriage 22 are` brackets 32A upon which `rotatable wire-carrying wheels A34` and 36 are mounted. The movable frame also carriesa motor (not illustrated) for driving-the Wheel 36 and suitable feed means for; controlling the vertical4 movementsv of the, movable frame.
As illustrated, the feed means includes a cable winding device 38 which cooperates with a cable 40 xed at one end tothe platform 30 by a fitting 42 andpassing over guides 44 and 46 attached, respectively, to thecross beamv 28 of the stationary frame and to the platforirr30-` When thefdevice 38 is actuated in onedirection, the cable 40 is;woundtv onto the cable winding device. This :results ina .decrease in the length of the'portion of` thecable 40.extending from the device 38 to the fitting 42 so that the movable frame must move upwardly. Similarly, when thedevice 38 isy reversed, the cable 40 is unwound, and the movable frame moves downwardly under the intluence of gravity.
`One or more long saw wires 48 pass around the wheels 34 and 36 and are guided thereby along horizontal, cuttinghruns `over the carriage 22 supporting the block of stone. Although these wires need be nov longer than would be required for them to pass in closed loops around the two wheels 34 and 36 on the vertically movable frame of the machine, sometimes it is desirable that they be extended over additional guidev wheels 50, 52, and 54 spaced from the actual cutting portion of the machine.
The wheel 50 may be spaced fromV the carriage a distance of a hundred feet or more and may be. mounted for rotation upon a suitable framework 56 which ordinarily isof such construction as to permit bodily movement of the wheel 50 when itis necessaryy to adjust the tension in the wires 48. The wheels 52 and 54 also are mounted upon a suitable frame 58, but this frame should be in the immediate vicinity of the main frame of the machine so that the wheels 52 and 54 may serve effectively to control the directions of movement of the wires 48 to the wheel 36 and from the wheell 34.
The apparatus shown in Fig. l commonly is referred to in the trade as a long wire machine, because of the very substantial lengths of the wires 48. Such machines are preferred by many operators. Since only a very smallA portion of each wire 48 issubject to abrasion at any particular moment, the wear on the wires is spread outl along the lengths of the wires in such a manner that it is not necessary to replace the wires at frequent intervals.
Although reference` has been made to a plurality of Wires 48, it will be evident to persons skilled in the artl that a single endless strand might be usedin lieu of ,a plu.` rality of separate wires. strand may be guided in a plurality of convolutions about the various guide wheels so that the necessary number of running lengths will extend between the guide; wheels 34J and 36 on opposite sides` of the block of stoneA 20 Insofar asthepresent invention is concerned, these two. arrangementsl may be considered tobe equivalents.
The invention alsol is applicableto, the so.-cal1edj.short,
When this is done,- theI singleV wire machines in which the wires are looped directly about the two wheels carried by the movable frame of the machine. This type of saw is especially suitable for use in environments where space restrictions make the use of remote wire-guiding means, such as the wheel 50 illustrated in Fig. l, inadvisable.
In all of the wire sawsin use; today, the actual cutting of the stone is accomplished by feedinga mixture of water and particulate abrasive to the cutting runs of the. wires, 48. The wires` themselves are twistedf structures having a number of inclined surfaces that engage the particulate abrasive and rub it against the vstone to effect the cutting. As the depths of the cuts in the stone 20 increase, the movable frame carrying the wire-guiding wheels 34 and 36 moves' downwardly so that the cutting runs of the wires 48 remain in contact with the bottoms of the cuts until the stone 20 has been severed completely.
In Fig. l, the abrasive mixture is fed from a suitable supply Vchamber 60-through a flexible conduit 62 to a dis tribution block 64 attachedV to the upper face. of the stone 20 being cut. In this connection it will be understood that there may be as many conduits 62 and distribution blocks 64 as there are cutting runs of the Wires 48. Each block 64 is positioned immediately adjacent to the plane of; movement of the cutting run of a wire 48, and feeds abrasive directly into the cut being formed thereby.
The construction of the novel wire-guiding' wheels ofY this invention isA best illustrated in Figs. 2, 3, and 4. Although these views represent the Wheel 36 of Fig. l, theconfiguration of the wheel 34 is similar and the remotely located wheels 50, 52 and 54- also may conform to the wheel 36, if desired.
The wheel 36 includes a hub portion 66, a generally cylindrical rim portion 68, and a plurality of radial spokes 70 extending-'betwen the hub 66 and the rim 68. The hub 66 is adapted to be permanently mounted upon a transversely extending shaft carried by the movable frame of the machine. In the case of the wheel 36, which normally serves as a drive wheel for moving the wires 48, the hub 66-is keyed or otherwise fixed against rotation relative to its shaft. However, the wheel 34, which serves as an idlerl in thewire-guiding system, may be rotatably mounted upon a fixed shaft or it may be keyed to a rotatable shaft.
The spokes 70 are shaped to give the wheel good strength and rigidityy characteristics and to minimize the overall.V mass of the wheel. To this end, each of the spokes 70 -is lgenerally cruciform in cross sectional shape. An arcuately elongated central portion 72 of each spoke 70 extends from the central portion of the rim 68 of the wheel, and laterally extending anges 74 give the structure transverse rigidity.
The rim portion 68 of the wheel is provided with aA large number of. circumferential grooves 76. The number of grooves 76 exceeds the number of running lengths of wire 48 used in the stone cutting operation, and the grooves 76 are spaced apart along the length of the rim 68 of the wheel so that the spacing of the wires 48 may be changed by shifting them from one set of grooves 76 to another.
In order to protect the walls of the grooves 76 against4 abrasion by the wires 48', each groove 76 is provided with a liner 78. These liners preferably are of rubber, but it will beapparent to persons skilled in the art that any other suitable-material may be used forfthispurpose, It`
is contemplated that, when a liner 78 becomes worn, it
may be `removed from its groove 76 and replaced with-A mize the deteriorating effects produced by the water andV abrasive yto which the wheel is subjected during use.
The 'signiiicance of the spacing of the grooves 76 in the wheel 36 can best be explained by referring to the diagram shown in Fig. 5. At the top of this view there is a schematic representation of the rim portion of a wheel 36a, and below the wheel, five different arrangements of the wires 48a are suggested.
Although the wheel 36a may be identical to the wheel 36 of Fig. 2 an attempt has been made to simplify Fig. 5 by omitting the liners 78 disposed within the circumferential grooves and by illustrating the outlines of the grooves as they would appear with the liners 7S in place. The several grooves in the wheel 36a have been numbered 1 through 13 from right to left, to facilitate reference to them.
The uppermost wire arrangement pattern suggested in Fig. 5 is designated by the letter A. LIn this pattern, the tive wires 48a are disposed in grooves 2, 4, 5, I7, and 9. As indicated by the legend at the top of Fig. 5, the spacing between the axes of adjacent ones of these grooves is a 21%2 inches. Since the width of a cut produced by a wire normally is about 7/32 of an inch, the use of pattern A will result in the production of four slabs or cuts of stone, each having a width of 2% inches. This width is a standard in the building industry in that it conforms to a standard brick-course height.
It will be observed that pattern A is the arrangement illustrated in Fig. 2 of the drawings. Slabs of 21A inch width constitute the bulk of the output of many producers, and pattern A results in maximum production of this width. However, the present invention is not limited to the production of slabs of a single width. When other widths are required, the wires 48a may be shifted to a diiierent group of grooves in the wheel 36a.
Several alternative wire disposition patterns are suggested by the letters B, C, D, and E in Fig. 5. These patterns are largely self-explanatory. It will suiflce to point out, as an example, that in pattern E, the tive wires 48a produce one 2% inch slab, two 35/s inch slabs, and one 7% inch slab. All of the slab widths mentioned in Fig. 5 correspond to standard brick-course heights, and it can be anticipated that most producers of stone slabs will have occasion to make slabs of these widths from time to time.
It now will be evident that the present invention greatly simplifies the problem of resetting the spacing of the wires of a wire saw. Instead of adjusting the spacing between a number of individually movable wheels, the operator of the machine need only shift the wires -48 from one set of grooves 76 to another set. Since the multiple-groove wheels of this invention need never be shifted axially along the shafts upon which they are mounted, the resetting operations can be carried out quickly and easily even though the surfaces of the shafts themselves are corroded. This has not been possible heretofore.
An indication of the practical importance of the multiple-groove wheels of this invention is that the task of resetting the spacing of the wires of a wire saw now can be accomplished in a fraction of an hour. This remarkable result can best be appreciated by contrasting it with the three to four hours formerly required even under the most favorable circumstances.
In addition to reducing the down time to a small fraction of what has heretofore been required, the present invention enables the operator of the machine to make more accurate settings. Since no measurements are required in resetting the wires, the operations may be carried out by relatively unskilled labor without danger of costly errors.
Although the illustrated multiple-groove wheel 36 is particularly adapted for use on a machine having live wires 48, it will be apparent that it is not restricted to such use. If desired, the wheel 36 may be used to guide a larger or smaller number of wires. Also, the spacing of the circumferential grooves 76 in the wheel may be varied as necessary in order to meet particular requirements without departing from the principles of the invention.
Still other variations and modifications will suggest themselves to persons skilled in the art. It is intended therefore that the foregoing detailed description of the illustrated embodiment of the invention be considered as exemplary only, and that the scope of the invention be ascertained from the following claims.
We claim:
l. A wheel for guiding the wires of stone sawing apparatus of the type in which moving lengths of wire are caused to pass through the stone to be cut, comprising a cast aluminum member having a hub portion, a rim portion and a plurality of spokes extending between said hub and rim portions, said rim portion having an elongated cylindrical external surface provided with a plurality of axially spaced apart, circumferentiatlly extending, wire-receiving grooves therein, said grooves being spaced irregularly along the length of said external surface, the spacing between said grooves being such that different combinations of brick-course height slabs may be cut from the stone by disposing the moving lengths of wire in different sets of grooves, and an annular rubber liner disposed within each of said grooves in position to prevent the wires from contacting the walls of said grooves.
2. Stone sawing apparatus comprising stationary frame means, means for supporting `a stone to be cut, movable frame means mounted on said stationary frame means for movement toward and away from the stone to be cut, a pair of wheels carried by said movable frame means on opposite sides of the stone, and a plurality of running lengths of wire guided by said wheels along spaced apart paths so that upon movement of said movable frame means said wires may cut the stone, each of said wheels including an axially elongated unitary rim portion having a plurality of spaced circumferential wire-receiving grooves formed directly therein, the number of said grooves being in excess of the number of said running lengths of wire `so that the spacing between the wire paths may be varied by utilizing different sets of grooves to guide the lengths of wire.
3. Stone sawing apparatus comprising stationary frame means, means for supporting a stone to be cut, movable frame means mounted on said stationary frame means for movement toward and away from the stone to be cut, a pair of wheels carried by said movable frame means on opposite sides of the stone, and a plurality of running lengths of wire guided by said wheels along spaced apart paths so that upon movement of said movable frame means said wires may cut the stone, each of said wheels including an axially elongated unitary rim portion having a plurality of irregularly spaced circumferential wire-receiving grooves formed directly therein, the number of said grooves being in excess of the number of said running lengths of wire so that the spacing between the wire paths may be Varied by utilizing diiferent sets of grooves to guide the lengths of wire, and the spacing between said grooves being such that different combinations of brick-course height slabs may be cut from the stone by disposing the lengths of wire in different sets of grooves.
4. A wheel for guiding the wires of sawing apparatus of the type in which moving lengths of wire are caused to pass through the material to be cut, comprising a metal member having a hub portion, a rim portion and connecting means extending between said hub and rim portions, said rim portion having an elongated cylindrical external surface provided with ya plurality of axially spaced apart, circumferentially extending, wire-receiving grooves therein, said grooves being spaced irregularly along the length of said external surface, the spacing between said grooves being such that different widths of material may be cut by disposing the moving lengths of wire in different sets of grooves.
5. Afwheel; for. guidingthel wires of sawing apparatus of the type in which moving lengths of generally round wire `are causedV to pass through the material to bey cut, comprising a metal member having a hubportion, a rim portion and a, plurality of spokesv extending between saidhubrand rim portions, said rim portion having an elongatedbcyljndrical 1 external surface provided Witlra plurality of axially spaced-apart, circumferentiallyl ex,- tending, wire-receiving grooves therein, each of; said grooveshaving; a; curvedbottomrupon which saidk round 10 said groovesbeing such that diiferent Wdthsyof material may bereut yby depositingthernoving lengths of Wire in different setsof; grooves',` andv a11;aI1nular` rubber liner dislsvosed-within-v each of Asaid grooves. in;` position; to ,preventI they wires from, contacting directly the walls: of the glOOves.`
References Cited in, the le ofgthis patent UNITED STATES PATl-ENFSv 311,741` Gayy Feb. 3, 1885 334,998` Wardwell Jan. 26 1886 1,743,057 Weinholz etal. Jan. 7, 1930 1,749,146 Maison Mar. 4, 1930- 1,792,733 De Wein., Feb. 17, 1931 FOREIGN PATENTS 578 Great Britainy Feb. 2, 1883 548,791 1932 Germany Apr. 19,
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Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4038962A (en) * 1976-08-25 1977-08-02 Coggins Industries, Inc. Automatic power controller for a wire saw
EP0001326A1 (en) * 1977-09-16 1979-04-04 Motorola, Inc. A rotatable sleeve for guiding a web of wire strands
US4473913A (en) * 1982-06-01 1984-10-02 Ylvisaker Carl J Therapeutic support cushion
WO1993014914A1 (en) * 1992-01-31 1993-08-05 Zonato S.R.L. Machine for the multiple cutting of blocks of stone materials
US5605141A (en) * 1994-03-31 1997-02-25 Bilotta; Alessandro Making non-vertical planar cuts in masonry slabs
WO1998035802A1 (en) * 1997-02-14 1998-08-20 Emilio Brocco Sawing machine for dividing blocks of stone material into slices
WO1999000210A1 (en) * 1997-06-26 1999-01-07 Emilio Brocco Sawing machine for dividing blocks of stone material into slabs
WO2000005021A1 (en) * 1998-07-21 2000-02-03 Micheletti Macchine S.R.L. Wire saw for cutting up stone blocks into slabs with tension adjustment of individual saw wires
US20080264228A1 (en) * 2007-04-25 2008-10-30 Siltronic Ag Wire Guide Roll For Wire Saw
US20090288651A1 (en) * 2008-05-22 2009-11-26 Emilio Brocco Multiwire sawing machine for the cutting of material in block form
ITVI20080191A1 (en) * 2008-08-07 2010-02-08 Simec Spa MULTIFILE FRAME FOR CUTTING BLOCKS IN STONE MATERIAL.
US20100300422A1 (en) * 2007-09-28 2010-12-02 Luigi Pedrini Device for the support, drive and/or transmission of motion to a diamond wire on machines for cutting stones
WO2011032603A1 (en) * 2009-09-18 2011-03-24 Applied Materials, Inc. Wire saw device and method for operating same
ITMI20092021A1 (en) * 2009-11-17 2011-05-18 Barsanti Macchine S P A MOTOR PULLEY FOR CUTTING MACHINE TOOLS FOR MILLING MACHINES
WO2015181681A1 (en) * 2014-05-27 2015-12-03 Luca Toncelli Multiwire frame for cutting blocks of stone or stone-like material into slabs
US11389984B2 (en) * 2018-10-10 2022-07-19 Denso Corporation Cutting device

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Publication number Priority date Publication date Assignee Title
US311741A (en) * 1885-02-03 Machine foe sawing stone
US334998A (en) * 1886-01-26 Pulley
US1743057A (en) * 1928-03-23 1930-01-07 Albert E Wienholz Stone-sawing machine
US1749146A (en) * 1929-01-14 1930-03-04 Edmund R Maison Guide for cables and the like
US1792733A (en) * 1928-04-21 1931-02-17 Allis Chalmers Mfg Co Power-transmitting device
DE548791C (en) * 1931-04-23 1932-04-19 Ewald Mies Stone saw that uses an endless wire rope to make several cuts at the same time

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US311741A (en) * 1885-02-03 Machine foe sawing stone
US334998A (en) * 1886-01-26 Pulley
US1743057A (en) * 1928-03-23 1930-01-07 Albert E Wienholz Stone-sawing machine
US1792733A (en) * 1928-04-21 1931-02-17 Allis Chalmers Mfg Co Power-transmitting device
US1749146A (en) * 1929-01-14 1930-03-04 Edmund R Maison Guide for cables and the like
DE548791C (en) * 1931-04-23 1932-04-19 Ewald Mies Stone saw that uses an endless wire rope to make several cuts at the same time

Cited By (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4038962A (en) * 1976-08-25 1977-08-02 Coggins Industries, Inc. Automatic power controller for a wire saw
EP0001326A1 (en) * 1977-09-16 1979-04-04 Motorola, Inc. A rotatable sleeve for guiding a web of wire strands
US4473913A (en) * 1982-06-01 1984-10-02 Ylvisaker Carl J Therapeutic support cushion
WO1993014914A1 (en) * 1992-01-31 1993-08-05 Zonato S.R.L. Machine for the multiple cutting of blocks of stone materials
US5605141A (en) * 1994-03-31 1997-02-25 Bilotta; Alessandro Making non-vertical planar cuts in masonry slabs
WO1998035802A1 (en) * 1997-02-14 1998-08-20 Emilio Brocco Sawing machine for dividing blocks of stone material into slices
WO1999000210A1 (en) * 1997-06-26 1999-01-07 Emilio Brocco Sawing machine for dividing blocks of stone material into slabs
WO2000005021A1 (en) * 1998-07-21 2000-02-03 Micheletti Macchine S.R.L. Wire saw for cutting up stone blocks into slabs with tension adjustment of individual saw wires
US6513514B1 (en) 1998-07-21 2003-02-04 Micheletti Macchine S.R.L. Wire saw for cutting up stone blocks into slabs with tension adjustment of individual saw wires
US20080264228A1 (en) * 2007-04-25 2008-10-30 Siltronic Ag Wire Guide Roll For Wire Saw
US10245661B2 (en) * 2007-04-25 2019-04-02 Siltronic Ag Wire guide roll for wire saw and method
US20100300422A1 (en) * 2007-09-28 2010-12-02 Luigi Pedrini Device for the support, drive and/or transmission of motion to a diamond wire on machines for cutting stones
US20090288651A1 (en) * 2008-05-22 2009-11-26 Emilio Brocco Multiwire sawing machine for the cutting of material in block form
US8047195B2 (en) * 2008-05-22 2011-11-01 Co.Fi.Plast S.R.L. Multiwire sawing machine for the cutting of material in block form
ITVI20080191A1 (en) * 2008-08-07 2010-02-08 Simec Spa MULTIFILE FRAME FOR CUTTING BLOCKS IN STONE MATERIAL.
WO2011032603A1 (en) * 2009-09-18 2011-03-24 Applied Materials, Inc. Wire saw device and method for operating same
ITMI20092021A1 (en) * 2009-11-17 2011-05-18 Barsanti Macchine S P A MOTOR PULLEY FOR CUTTING MACHINE TOOLS FOR MILLING MACHINES
WO2011061138A1 (en) * 2009-11-17 2011-05-26 Barsanti Macchine S.P.A. Drive pulley for cutting tools of machines for processing stones materials
WO2015181681A1 (en) * 2014-05-27 2015-12-03 Luca Toncelli Multiwire frame for cutting blocks of stone or stone-like material into slabs
US11389984B2 (en) * 2018-10-10 2022-07-19 Denso Corporation Cutting device

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