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US1078380A - Method of forming woven-wire fabrics. - Google Patents

Method of forming woven-wire fabrics.
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Publication number
US1078380A
US1078380AUS73813312AUS1912738133AUS1078380AUS 1078380 AUS1078380 AUS 1078380AUS 73813312 AUS73813312 AUS 73813312AUS 1912738133 AUS1912738133 AUS 1912738133AUS 1078380 AUS1078380 AUS 1078380A
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Prior art keywords
wires
warp
fabric
weft
wire
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Expired - Lifetime
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US73813312A
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Morley Punshon Reynolds
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WS Tyler Inc
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Tyler Co W S
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Description

M. P. REYNOLDS.
METHOD OF FORMING WOVEN WIRE FABRICS.
APPLICATION FILED DEC. 23, 1912.
1,078,380. Patented Nov. 11, 1913.
Fig.1.
WTEU FATFW UFFTFEC;
MGR/LEV PUNSHON'FJEYNOJUDS, 0F CLEVELAND, OHIO, ASSIGNOJRI TO THE W". S. TYLER- GUMPANF, 0F CLEVELAND, 01-110, A CORPORATION OF UHIO.
METHOD OF FQRMING WOVEN-WIRE FABMICEL intense.
To all whom it may concern."
Be it, known that T, MORLEY PoNsHow ltnYNoLns, a resident of Cleveland, in the county of Cuyahoga and State of Ohio, have invented a new and useful improvement in Methods of Forming Woven-Wire Fabrics; and I do hereby declare the following to be a full, clear, and exact description thereof.
My invention relates to methods of forn1- ing woven wire fabrics and has special reference to such fabrics to be used for screening purposes.
The object of my invention is to provide a cheap, simple and ellicient method of forming a woven wire fabric for screening purposes, which fabric will have a comparatively smooth surface, and will be constructed to withstand abrasion of particles coming in contact with the same, as well as one with a great discharging surface or air space, thus producing a screen which will pass are-latively larger tonnage of particles through the same than the ordinary screen.
To these ends my invention consists generally stated in the novel method of forming woven wire fabrics for screens, as hereinafter more specifically set forth and described and particularly pointed out inthe claims.
To enable others skilled in the art to which my invention appertains to practise and use my improved method of forming wire fabric for screens, I will describe the same more fully referring to the accompanying drawing, forming part of this specification, in which Figure 1 is an elevation of a wire fabric embodying my invention. Fig. 2 is a cross section on the line 2-2, Fig. 1, looking in the direction of the arrow. Fig. 3 is a like section on the line 3-3, Fig. 1, looking in the direction of the arrow. Fig. 4: is a similar section on the line H looking in the direction of the arrow. Fig. 5 is a section on the line 55, Fig. 1.
Like symbols of reference herein indicate like parts in each of the figures of the draw its illustrated in thedrawing 1, 2, 3, etc. designate the warp wires, which are preferably circular in cross-section, and a, b, 0, etc.
f tional area than the warp wires. The warp,
designate the chute or weft wires, which may be circular incross section or other shape in I cross section, such as rectangular, and as shown, are considerably larger in cross-sectpccification of Letters Patent.
Application filed December 23, 1912. serial No. 739,133.
Patented Nov, till, rein.
wires are made of ahigh carbon metal wire, such as steel, andthe chute or weft wires are made of a low carbon metal wire, and both of said wires are brought to substantially the same degree of softness before being woven, by the high carbon warp wires being brought to the lowest degree of annealing, in which great careis taken, while the low carbon Weft wires are given regular annealingtreatment without special care being taken to bring them to their lowest degree of point in annealing.
in forming my improved woven wire fabric for screens the warp wires and weft wires are preferably so woven together, as shown in the drawing, as to produce a fabric having an oblong mesh. The fabric thus woven is then pressed or rolled in order to bring the surfaces of'the warp wires and the weft wires where they cross one another, into substantially the same plane. During this pressing or rolling operation, the weft wires will be flattened to-any great extent and each warp wires where'they cross said Weft wires so as to form seats a, b, 0, etc. in said weft wires, while such operation will also form seats a, b", 0, etc. in the Warp wires, at
such crossings, by reason of said warp wires and weft wires being of substantially the same ductility, and thus by the mutual engagement of said seats in said warp and weft wires, the wires will be practically locked together. The surface of the fabric where the warp and weft wires cross one another will then be in substantially the same plane, but
neither the warpwires nor the weft wires will be flattened to any great extent and each of said warp wires will maintain the crimped or undulating form which was imparted to it during the weaving operation, so that the portion of each warp wire between any pair of weft wires will be inclined in the opposite direction to the adjoining portion of each warp wire at each side thereof, and to illustrate, assuming that the screen is lying in a horizontal position, and taking for consideration the portions of thewarp wires 2 and 3 lying between the weft wires 11 and b it will be seen that wheresuch warp wires 2 and 3 cross the weft wire 7) thewire 2 is underneath the weft wire b and thewire 3 is above this same. Thewarp wire 2 then inclines upwardly and passes over the weft wires a and 0 while thewarp wire 3 inclines downwardly and passes underneath these weft wires, so
.between such wires (4 and b are in the same horizontal plane, so that if the distance between sa-id portions of thewires 2 and 3 at their central points between the wires a and b and the distance between them where they cross either of the wires a or b be measured, it will be found that saidwires 2 and 3 are further apart Where they cross the wires a and 7) than they are at their central points, and while the difference is very slight, it can be positively and readily observed.
After the fabric has been woven and rolled or pressed, as above described, it is subjected to a heat treatment in a suitable furnace with suitable degrees of heat, and then allowed to cool in any suitable manner, in order to temper the same, which permits the high carbon warp wires to become very hard, while the low carbon weft wires are not materially changed by such treatment and therefore remain in substantially the same soft condition as before the treatment.
It will thus be seen that a metallic wire fabric will be produced in which each mesh or opening has a greater capacity at its ends than at its center, and in actual use it has been found that this is a most valuable feature, as screens constructed of such a fabric do not become clogged and are free from other objections common to ordinary screens.
It will also be seen that another advantage in the screen lies in that by reason of the pressin or rolling operation to which the woven fabric is subjected the warp wires and weft wires are firmly interlocked with each other at their intersections, while such interlocking is greatly increased by the tempering of such Wires, so that any tendency of the wires to move relatively to each other is practically eliminated, and a screening fabric is produced in which the meshes of the same will remain uniform in shape and size and will not vary in these particulars, as fre- I quently occurs in the case of screening fabrics heretofore in-common use. The weft wires of the fabric after tempering, bein of softer metal than the warp wires, the fa ric will better Withstand vibration, as hard weft wires crimped and compacted or pressed or rolled in the manner described would crystallize and be very liable to break easily owing to their lack of ductility; while it will be understood, of course, that the difference in the hardness between the weft and warp wires in the finished fabric will materially depend upon the service'to which the screening fabric is put, as in some screens the difference will be quite great and in others not so great.
The weft wires are also preferably made larger than the warp wires for the purpose of strengthening the screen, as there are fewer weft wires than warp wires and such weft wires also being softer than the warp wires in the finished fabric are more liable to wear and abrasion and hence should be larger to withstand the wear equally with the warp wires.
What I claim as my invention and desire to secure by Letters-Patent is l. The herein-described method of forming a metallic screen fabric having warp and weft wires of different degrees of hardness, comprising the steps of forming the fabric from high carbon warp and low carbon metal weft wires of substantially the same degree of softness, compressing the fabric to press the wires into each other to interlock the same, and then subjecting the fabric to heat treatment to temper the same, thereby giving different degrees of hardness to the warp and weft wires composing it. 7
2. The herein-described method of forming a metallic screen fabric havingg warp and weft wires of different degrees of hardness and with the weft wires larger than the warp wires, comprising the steps of form-' ing the fabric from high carbon warp and low carbon metal w "t wires of substantially the same degree of softness, compressing the fabric to press the wires into each other to interlock the same, and then subjecting the fabric to heat treatment to temper the same, thereby giving different degrees of hardness to the warp and weft wires composing it.
In testimony whereof, I the said MORLEY PUNSHON REYNOLDS, have hereunto set my hand.
MORLEY PUNSHON REYNOLDS.
Witnesses:
J. N. COOKE, T. B. HUMPHRIEs.
US73813312A1912-12-231912-12-23Method of forming woven-wire fabrics.Expired - LifetimeUS1078380A (en)

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Cited By (28)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2616939A (en)*1951-05-021952-11-04Fischbach AdolphSponge cadmium electrode and method of making the same
US2679547A (en)*1951-01-091954-05-25Us ArmyThin plate battery
US2694852A (en)*1951-01-131954-11-23Riley Stoker CorpMethod of brazing and the product thereof
US2874730A (en)*1955-12-011959-02-24Tyler Co W SWoven structural material
US3049796A (en)*1957-07-121962-08-21Pall CorpPerforate metal sheets
DE1151430B (en)*1954-04-021963-07-11Steinhaus Gmbh Harp screen with rubberized metal wires
US3329378A (en)*1966-03-041967-07-04Cheney Bigelow Wire Works IncWoven wire cloth for fourdrinier machines
US3428278A (en)*1966-06-011969-02-18Fort Wayne Metals IncPermeable airfoil skin
US3502116A (en)*1967-11-291970-03-24Nat Standard CoWoven filter cloth
US3716138A (en)*1970-05-131973-02-13Hoyt Wire Cloth CoScreen
US4068379A (en)*1977-03-181978-01-17Ormco CorporationOrthodontic appliance with porous tooth-abutting face
US4239833A (en)*1978-12-281980-12-16Mennica PanstwowaGrid of precious metals for the recovery of platinum metals escaping from a catalyst during the reaction, and especially of platinum during oxidation of ammonia
USD318148S (en)1988-12-231991-07-09J & L Wire Cloth Company, Inc.Woven wire flooring for animals
US6220449B1 (en)*1999-10-012001-04-24Tuboscope I/P, Inc.Flat top cloth support screen
US20040101742A1 (en)*2002-11-272004-05-27Haskell SimpkinsCompliant current collector for fuel cell anode and cathode
US20080006563A1 (en)*2006-07-072008-01-10Backes Douglas JApparatus and methods for filtering granular solid material
US20080237405A1 (en)*2007-03-272008-10-02Beck Jeffrey LScreen for a Vibratory Separator Having Wear Reduction Feature
US20090060955A1 (en)*2007-08-312009-03-05You Han BaeDrug delivery vehicle that mimics viral properties
US7980392B2 (en)2007-08-312011-07-19Varco I/PShale shaker screens with aligned wires
US8533974B2 (en)2006-10-042013-09-17Varco I/P, Inc.Reclamation of components of wellbore cuttings material
US8561805B2 (en)2002-11-062013-10-22National Oilwell Varco, L.P.Automatic vibratory separator
US8622220B2 (en)2007-08-312014-01-07Varco I/PVibratory separators and screens
US8695805B2 (en)2002-11-062014-04-15National Oilwell Varco, L.P.Magnetic vibratory screen clamping
US9643111B2 (en)2013-03-082017-05-09National Oilwell Varco, L.P.Vector maximizing screen
US9677353B2 (en)2008-10-102017-06-13National Oilwell Varco, L.P.Shale shakers with selective series/parallel flow path conversion
CN109989999A (en)*2017-12-292019-07-09圣戈班性能塑料帕姆普斯有限公司 Bearing components and methods of making and using the same
USD864494S1 (en)*2016-06-082019-10-22J&L Wire Cloth, LLCAgricultural flooring
USD1067649S1 (en)*2017-02-092025-03-25Curver Luxembourg SarlPanel

Cited By (32)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2679547A (en)*1951-01-091954-05-25Us ArmyThin plate battery
US2694852A (en)*1951-01-131954-11-23Riley Stoker CorpMethod of brazing and the product thereof
US2616939A (en)*1951-05-021952-11-04Fischbach AdolphSponge cadmium electrode and method of making the same
DE1151430B (en)*1954-04-021963-07-11Steinhaus Gmbh Harp screen with rubberized metal wires
US2874730A (en)*1955-12-011959-02-24Tyler Co W SWoven structural material
US3049796A (en)*1957-07-121962-08-21Pall CorpPerforate metal sheets
US3329378A (en)*1966-03-041967-07-04Cheney Bigelow Wire Works IncWoven wire cloth for fourdrinier machines
US3428278A (en)*1966-06-011969-02-18Fort Wayne Metals IncPermeable airfoil skin
US3502116A (en)*1967-11-291970-03-24Nat Standard CoWoven filter cloth
US3716138A (en)*1970-05-131973-02-13Hoyt Wire Cloth CoScreen
US4068379A (en)*1977-03-181978-01-17Ormco CorporationOrthodontic appliance with porous tooth-abutting face
US4239833A (en)*1978-12-281980-12-16Mennica PanstwowaGrid of precious metals for the recovery of platinum metals escaping from a catalyst during the reaction, and especially of platinum during oxidation of ammonia
USD318148S (en)1988-12-231991-07-09J & L Wire Cloth Company, Inc.Woven wire flooring for animals
US6220449B1 (en)*1999-10-012001-04-24Tuboscope I/P, Inc.Flat top cloth support screen
US8695805B2 (en)2002-11-062014-04-15National Oilwell Varco, L.P.Magnetic vibratory screen clamping
US8561805B2 (en)2002-11-062013-10-22National Oilwell Varco, L.P.Automatic vibratory separator
US20040101742A1 (en)*2002-11-272004-05-27Haskell SimpkinsCompliant current collector for fuel cell anode and cathode
US8048587B2 (en)*2002-11-272011-11-01Delphi Technologies, Inc.Compliant current collector for fuel cell anode and cathode
US20080006563A1 (en)*2006-07-072008-01-10Backes Douglas JApparatus and methods for filtering granular solid material
US7905358B2 (en)2006-07-072011-03-15Alliant Techsystems Inc.Apparatus and methods for filtering granular solid material
US8533974B2 (en)2006-10-042013-09-17Varco I/P, Inc.Reclamation of components of wellbore cuttings material
US20080237405A1 (en)*2007-03-272008-10-02Beck Jeffrey LScreen for a Vibratory Separator Having Wear Reduction Feature
US7581569B2 (en)*2007-03-272009-09-01Lumsden CorporationScreen for a vibratory separator having wear reduction feature
US7980392B2 (en)2007-08-312011-07-19Varco I/PShale shaker screens with aligned wires
US8622220B2 (en)2007-08-312014-01-07Varco I/PVibratory separators and screens
US20090060955A1 (en)*2007-08-312009-03-05You Han BaeDrug delivery vehicle that mimics viral properties
US9677353B2 (en)2008-10-102017-06-13National Oilwell Varco, L.P.Shale shakers with selective series/parallel flow path conversion
US9643111B2 (en)2013-03-082017-05-09National Oilwell Varco, L.P.Vector maximizing screen
US10556196B2 (en)2013-03-082020-02-11National Oilwell Varco, L.P.Vector maximizing screen
USD864494S1 (en)*2016-06-082019-10-22J&L Wire Cloth, LLCAgricultural flooring
USD1067649S1 (en)*2017-02-092025-03-25Curver Luxembourg SarlPanel
CN109989999A (en)*2017-12-292019-07-09圣戈班性能塑料帕姆普斯有限公司 Bearing components and methods of making and using the same

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