US2844325A - Railway track construction - Google Patents

Railway track construction Download PDF

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US2844325A
US2844325A US481585A US48158555A US2844325A US 2844325 A US2844325 A US 2844325A US 481585 A US481585 A US 481585A US 48158555 A US48158555 A US 48158555A US 2844325 A US2844325 A US 2844325A
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rail
concrete
rails
chair
bolt
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Weber Carl
Kenneth L Henson
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01BPERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
    • E01B9/00Fastening rails on sleepers, or the like
    • E01B9/02Fastening rails, tie-plates, or chairs directly on sleepers or foundations; Means therefor
    • E01B9/28Fastening on wooden or concrete sleepers or on masonry with clamp members
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01BPERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
    • E01B3/00Transverse or longitudinal sleepers; Other means resting directly on the ballastway for supporting rails
    • E01B3/28Transverse or longitudinal sleepers; Other means resting directly on the ballastway for supporting rails made from concrete or from natural or artificial stone
    • E01B3/40Slabs; Blocks; Pot sleepers; Fastening tie-rods to them

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  • This invention relates to the construction of railway tracks, and is particularly directed to the provision of an improved track construction in which the rails are supported on concrete rather than on conventional wooden crossties.
  • the railway roadbed is first prepared, and rails are laid thereon vin desired alignment.
  • widely spaced rail sup. ports are advantageously emplaced on the Aroadbed, and the rails are laid on suchsupports ⁇ in desired alignment and at the desired gauge spacing.
  • Railchairs are then attached to the underside of the rail bases, and concrete A reinforcing elements are secured to --the rail-chairs, between the preliminary rail supports. Thereafter concrete is cast on to the roadbedabout the .reinforcing elements and about the rail chairs, and is allowed to harden.
  • the railwayftrack of the vinvention ⁇ thus comprises rails laidl in desired alignment with the underside of the rail bases seated on metallic rail chairs, the rail ychairs in turn being secured to .concrete reinforcing elements about which a slab Vof hardened concrete has lbeen cast.
  • the concrete is preferably cast to such a depth that yits upper surface is at the level of the bottornsurfaces of the rail bases, so that in the completed -track the rails in the spaces betweenthe rail chairs are supported dihaving anchor legs projecting downwardly for anchoring it to the concrete slab.
  • the rails are secured tothe rail chairs by means of hammerheadL bolts vhaving' heads 'of such-dimensions as to be capable of 'insertion 'through the slots of said plate, and, upon turning, of becoming interlocked therewith, and by rail, clips adapted to engage It comprises a metallic chair .plate having a slot formed in each of its end portions, 'and v2,844,325 Patented July 22, 1958 ragainst the rail bases and to be clamped thereagainst by said bolts.
  • Fig. 1 is a plan of a .railway track according to the invention, showing it at various stages of construction;
  • Fig. 2 is a section takenl substantially along the line 24-2 of Fig. 1;
  • Fig. v3 is a section taken substantially along the Lline 3 3 of Fig. 1; v
  • Fig. 4 is a plan view on an enlarged scale of a 'rail attached to a .rail chair assembly
  • Fig. 5 is a section taken substantially along the line 5-'5 of Fig. 4;
  • Fig. 6 is a perspective showing the chair plate with partsl broken away and with the bolt and clip about to be secured thereto.
  • Figs. 1 to kEl The method of constructing a railway track in accorda ance with the invention is best shown in Figs. 1 to kEl.
  • the rails 11 are laid in place on rail supports 12.
  • the supports in the form shown in thedrawings resemble conventional crosstie's except that they are preferably made of concrete. They are placed preferably at the greatest distance apart thatV the stiffness of the rails will permit, 'so that the rails will .not sag to any significant extent between them.
  • the rai-ls yare ⁇ attached to the supports at the correct spoor gauge and' are then adjusted true to line and grade for the permanent track position.
  • Fastenings 13 by which the rails are attached to the supports 12 may be of the same design as the'chair plate assemblies described below and may be embedded therein when thesupports are made.
  • rail chair assemblies 14 are attached to the rail bases 15 atsuitable relatively closely spaced intervals between the Asupports 412.
  • a network lof steel reinforcing elements 1'6 is attached to the rail chair assemblies, beneath the rilsll and spanning the gauge space between them.
  • Side forms 1'7 are set in place, and concrete 1 ⁇ 8 is cast about the r lee 'reinforcing elements 16 to such a depth that its upper When the concrete has hardened, the side forms 17 may".
  • the supports 12, however, are preferably left in place as a permanent part of the track structure. lInthe completed track, the rails are securely attached to the concrete 18 'by the chair assemblies 14, and are Well Supportedxby the chair plates and by the concrete itself, for between the chair plates 14 the yrails bearon the upper surface of the concrete.
  • the chair assemblies 14 by which the rails are attached to the supporting concrete are best Vshown in Figs. 4 to 6.
  • Each of these assemblies comprises a strong metall chair plate 21, 4formed with a rectangular slot 22 in each of its end portions.
  • the chair plate 20 is substantially'loriger than the rail base 12 is wide, and the slots l-ie oneither side of the rail base when the rail is properly seated onI the chair plate.
  • the length and width ofthe slots 22 correspond to the dimensions of the heads 23 of hammerhead 'bolts 24: the width-of the slots is only slightly greater than the width of the bolt heads 23 (the width of the head being substantially equal to the diameter of the bolt shank), and the length of the slot is a little greater than the length of the bolt head.
  • the head 23 of the bolt may be inserted through the slot 22, and then by turning the bolt through 90, the bolt may be interlocked with the chair plate so that it cannot Ibe withdrawn again through the slot.
  • a housing 25 surrounds the slot 22 on the undersurface of the chair plate 21, so that when the concrete 18 is cast about the chair plate as described above, the space in which the head of the bolt 23 is received when inserted through the slot 22 does not become obstructed by the concrete.
  • Chair anchor legs 26 are securely attached to the chair plate 21, and extend downwardly therefrom. These legs advantageously are bent over at their lower end portions, as indicated at 27, to form hooks adapted to engage reinforcing elements 16 embedded in the concrete. These bent-over portionsv of the anchor legs may also serve to support the network of reinforcing elements 16 when the latter is mounted in place preparatory to pouring the concrete, as described above.
  • Rail clips 28 are provided to fasten the rails to the chair plates. Each of these clips is formed with a hole through which the bolt shank may extend, and with a lip 29 adapted to engage the rail base 15. When a nut 30 is screwed on the bolt 24, and is turned down against the upper surface of the rail clip 28, the latter clamps the rail securely against the chair plate.
  • a lug 31 extends downwardly from the undersurface of the rail clip 28, directly behind the hole through which the bolt extends.
  • This lug is of a width about equal to the width of the slot 22, and it extends through the slot behind the bolt when the latter has been mounted in place.
  • Rail clips 28 of various sizes are provided to accommo- For the absorption of vibratory stresses on the concrete surface under the rails, and to reduce surface traffic noises, thin strips 32 of resilient and preferably sound deademng material are advantageously placed under the rails throughout their length and under the rail clips.
  • Various materials such as rub-ber, rubberized fabric, and various weatherand moisture-resistant brous materials, may be used for making the strips 32. It may be desired to employ such strips on main lines and other frequently used tracks, and to omit them from yard tracks, sidings and other tracks carrying only infrequently or very slow trac.
  • the insulating strips 32 may be set in place against the undersurface of the rail bases either before or after the concrete 18 is cast in place; but preferably, in order to insure the best possible bearing of the rails against the concrete, it is installed after the concrete has been poured and allowed to harden.
  • the reinforced concrete slab foundation supporting the rails for their entire length provides uniform distribution ,of all service loads, and it assures improved safety of railway operation while achieving technical and economical advantages which cannot be obtained by any other known method.
  • the concrete track structure is permanent, and is not affected by severe climatic conditions, fungus growth, termites Or other destructive influences. No weeds can grow within the track area.
  • the concrete slab covers the whole area like a waterproof blanket. Storm water cannot enter freely below the slab, with the result that damage or inconveniences due to unstable ground conditions, where such conditions are caused by variable moisture content of the supporting ground and by frost, are eliminated.
  • the greatest possible protection against vertical or horizontal misalignment of the rails is provided.
  • the uniform distribution of all dead and live loads over the entire track area provides for the greatest possible track stability by drastic reduction of maximum ground pressure.
  • the strong rail chairs deeply embedded in concrete and securely connected with the steel reinforcing elements of the slabs have no parts protruding over the surface that could be damaged during the construction period, and they become essentially integral parts of the concrete slab.
  • the hammerhead bolts are securely held by the rail chairs and are safely locked in correct immovable position, and thus they provide for secure fastening of the rails in place by the rail clips.
  • Track bolts and clips are, however, easily removable to permit replacement of worn or damaged rails.
  • Costs of concrete railway track maintenance one of the most expensive items of railroad service, amount to only a small fraction of the costs for maintenance of conventional wooden crosstie tracks.
  • a rail chair assembly for use in railway track construction of the character described comprising a metal chair plate having a slot formed in each end portion thereof, a housing forming an enclosure about the undersurface of each end portion of the' chair plate into which said slot opens, anchor legs projecting downwardly from said plate and adapted to be anchored in a concrete slab, hammerhead bolts having heads of such dimensions as to be capable of insertion through the slots of said plate and, upon turning, of becoming interlocked therewith, and rail clips adapted to be secured to said plate by said bolts.
  • a rail chair assembly of the character described comprising a metal chair plate having a slot formed in each end portion thereof, hammerhead bolts having heads of such dimensions as to be capable of insertion through the slots of said plate and, upon turning, of becoming 6 interlocked therewith, and rail clips adapted to -be secured to said plate by said bolts, each of said rail clips having a lug projecting from its undersurface in position to enter the slot in the chair plate alongside the bolt and substantially prevent turning of the bolt.
  • a rail chair assembly of the character described comprising a metal chair plate having a slot formed in each end portion thereof, hammerhead bolts having shank diameters and head widths only slightly less than the width of said slots and having heads of a length less than the length of said slots, whereby the head of one such bolt may be inserted through each slot in the chair plate and, upon turning through substantially may be interlocked with the chair plate, rail clips having bolt holes extending therethrough adapted to be placed on said bolts and secured thereby to said chair plates, lugs projecting from the underside of said rail clips in position to enter said slots alongside the bolts therein and prevent turning of said bolts suciently to become disengaged from the chair plates, and a housing on the underside of the chair plate about each slot therein and enclosing the space occupied by the bolt head and clip lug, whereby said chair plate may be embedded in concrete Without interfering with ready installation at a later time of said bolts and rail clips.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Railway Tracks (AREA)

Description

2 Shee'Cs-Sl'xeekl 1 IWMLBY July 22, 1958 c. WEBER ETAL RAILWAYy TRACK CONSTRUCTION Filed Jan. 13, 1955 July 22, 1958 l c. WEBER ETAL `2,844,325
' RAILWAY TRAcxoNsTRUcTIoN 2 sheets-sheet 2 L Filed Jan. 15, 1955 v l] X,"
ATTORNEYS FIG. 5
United States Patent RAILWAY TRACK CONSTRUCTION Carl Weber, New York, N. Y., and Kenneth L. Henson, Rochelle Park, N. IL, :assignors, by Lmesne assignments,
to Carl Weber, New York, N. Y.
Application January 13, 195s, sei-iai No. 481,585
' 4 Claims. (ci. `zas- 7) This invention relates to the construction of railway tracks, and is particularly directed to the provision of an improved track construction in which the rails are supported on concrete rather than on conventional wooden crossties.A Y
In our copending application Serial No. 457,406, tiled September 21, 1954, we have described an improved railway track in which prefabricated concrete slabs are used in place of wooden crossties to support the rails and hold them at the correct gauge spacing. Tracks thus constructed are available for use substantially as soon as the rails have been laid. However, to construct track in this fashion, provision fmust be made for precasting the concrete slabs, and they must be transported kfrom the place where `they yare made to the place where they are installed on the railway roadbed. Our present invention .is directed to an alternative method of railway track construction which disposes of the need for Vprecasting and handling large concrete rail-supporting slabs, by providing for the casting of such slabs in place.
In accordance with the method of our present invention, the railway roadbed is first prepared, and rails are laid thereon vin desired alignment. For the purpose of temporarily supporting the rails, widely spaced rail sup. ports are advantageously emplaced on the Aroadbed, and the rails are laid on suchsupports `in desired alignment and at the desired gauge spacing. Railchairs are then attached to the underside of the rail bases, and concrete A reinforcing elements are secured to --the rail-chairs, between the preliminary rail supports. Thereafter concrete is cast on to the roadbedabout the .reinforcing elements and about the rail chairs, and is allowed to harden.
AThe railwayftrack of the vinvention `thus comprises rails laidl in desired alignment with the underside of the rail bases seated on metallic rail chairs, the rail ychairs in turn being secured to .concrete reinforcing elements about which a slab Vof hardened concrete has lbeen cast. The concrete is preferably cast to such a depth that yits upper surface is at the level of the bottornsurfaces of the rail bases, so that in the completed -track the rails in the spaces betweenthe rail chairs are supported dihaving anchor legs projecting downwardly for anchoring it to the concrete slab. The rails are secured tothe rail chairs by means of hammerheadL bolts vhaving' heads 'of such-dimensions as to be capable of 'insertion 'through the slots of said plate, and, upon turning, of becoming interlocked therewith, and by rail, clips adapted to engage It comprises a metallic chair .plate having a slot formed in each of its end portions, 'and v2,844,325 Patented July 22, 1958 ragainst the rail bases and to be clamped thereagainst by said bolts.
The foregoing and other features of our invention are described below with .reference to the accompanying drawings, showing a preferred embodiment of the invention, in which- Fig. 1 is a plan of a .railway track according to the invention, showing it at various stages of construction;
Fig. 2 is a section takenl substantially along the line 24-2 of Fig. 1;
Fig. v3 is a section taken substantially along the Lline 3 3 of Fig. 1; v
Fig. 4 is a plan view on an enlarged scale of a 'rail attached to a .rail chair assembly;
Fig. 5 is a section taken substantially along the line 5-'5 of Fig. 4;,and
Fig. 6 is a perspective showing the chair plate with partsl broken away and with the bolt and clip about to be secured thereto.
The method of constructing a railway track in accorda ance with the invention is best shown in Figs. 1 to kEl. When the roadbed 1.0 with required cuts and fills, culverts, bridges, tunnels, andl drainage provisions has been completed and prepared for reception of the track structure by customary ,construction methods, the rails 11 are laid in place on rail supports 12. The supports in the form shown in thedrawings resemble conventional crosstie's except that they are preferably made of concrete. They are placed preferably at the greatest distance apart thatV the stiffness of the rails will permit, 'so that the rails will .not sag to any significant extent between them. The rai-ls yare `attached to the supports at the correct spoor gauge and' are then adjusted true to line and grade for the permanent track position. Fastenings 13 by which the rails are attached to the supports 12 may be of the same design as the'chair plate assemblies described below and may be embedded therein when thesupports are made.
After the rails have been laid as described, rail chair assemblies 14 are attached to the rail bases 15 atsuitable relatively closely spaced intervals between the Asupports 412. A network lof steel reinforcing elements 1'6 is attached to the rail chair assemblies, beneath the rilsll and spanning the gauge space between them. Side forms 1'7 are set in place, and concrete 1`8 is cast about the r lee 'reinforcing elements 16 to such a depth that its upper When the concrete has hardened, the side forms 17 may".
be removed. The supports 12, however, are preferably left in place as a permanent part of the track structure. lInthe completed track, the rails are securely attached to the concrete 18 'by the chair assemblies 14, and are Well Supportedxby the chair plates and by the concrete itself, for between the chair plates 14 the yrails bearon the upper surface of the concrete.
The chair assemblies 14 by which the rails are attached to the supporting concrete are best Vshown in Figs. 4 to 6. Each of these assemblies comprises a strong metall chair plate 21, 4formed with a rectangular slot 22 in each of its end portions. The chair plate 20 is substantially'loriger than the rail base 12 is wide, and the slots l-ie oneither side of the rail base when the rail is properly seated onI the chair plate. The length and width ofthe slots 22 correspond to the dimensions of the heads 23 of hammerhead 'bolts 24: the width-of the slots is only slightly greater than the width of the bolt heads 23 (the width of the head being substantially equal to the diameter of the bolt shank), and the length of the slot is a little greater than the length of the bolt head. Thus the head 23 of the bolt may be inserted through the slot 22, and then by turning the bolt through 90, the bolt may be interlocked with the chair plate so that it cannot Ibe withdrawn again through the slot. A housing 25 surrounds the slot 22 on the undersurface of the chair plate 21, so that when the concrete 18 is cast about the chair plate as described above, the space in which the head of the bolt 23 is received when inserted through the slot 22 does not become obstructed by the concrete.
Chair anchor legs 26 are securely attached to the chair plate 21, and extend downwardly therefrom. These legs advantageously are bent over at their lower end portions, as indicated at 27, to form hooks adapted to engage reinforcing elements 16 embedded in the concrete. These bent-over portionsv of the anchor legs may also serve to support the network of reinforcing elements 16 when the latter is mounted in place preparatory to pouring the concrete, as described above.
Rail clips 28 are provided to fasten the rails to the chair plates. Each of these clips is formed with a hole through which the bolt shank may extend, and with a lip 29 adapted to engage the rail base 15. When a nut 30 is screwed on the bolt 24, and is turned down against the upper surface of the rail clip 28, the latter clamps the rail securely against the chair plate.
A lug 31 extends downwardly from the undersurface of the rail clip 28, directly behind the hole through which the bolt extends. This lug is of a width about equal to the width of the slot 22, and it extends through the slot behind the bolt when the latter has been mounted in place. After the bolt has Ibeen interlocked with the chair plate in the manner described, and the rail clip 28 has been placed on the bolt with its lug 31 projecting through the slot 22, the lug prevents the bolt from being turned suiciently to enable the bolt to disengage from the chair plate. Thereby accidental turning of the bolt in the slot to a position permitting it to be withdrawn from the chair plate is prevented.
Rail clips 28 of various sizes are provided to accommo- For the absorption of vibratory stresses on the concrete surface under the rails, and to reduce surface traffic noises, thin strips 32 of resilient and preferably sound deademng material are advantageously placed under the rails throughout their length and under the rail clips. Various materials, such as rub-ber, rubberized fabric, and various weatherand moisture-resistant brous materials, may be used for making the strips 32. It may be desired to employ such strips on main lines and other frequently used tracks, and to omit them from yard tracks, sidings and other tracks carrying only infrequently or very slow trac. The insulating strips 32 may be set in place against the undersurface of the rail bases either before or after the concrete 18 is cast in place; but preferably, in order to insure the best possible bearing of the rails against the concrete, it is installed after the concrete has been poured and allowed to harden.
Conventional expansion joints may be provided as deemed necessary; and other conventional attachments and appurtenances may likewise be provided as required or deemed advisable.
The outstanding advantages of the new concrete railway track construction are as follows:
The reinforced concrete slab foundation supporting the rails for their entire length provides uniform distribution ,of all service loads, and it assures improved safety of railway operation while achieving technical and economical advantages which cannot be obtained by any other known method.
The concrete track structure is permanent, and is not affected by severe climatic conditions, fungus growth, termites Or other destructive influences. No weeds can grow within the track area.
The concrete slab covers the whole area like a waterproof blanket. Storm water cannot enter freely below the slab, with the result that damage or inconveniences due to unstable ground conditions, where such conditions are caused by variable moisture content of the supporting ground and by frost, are eliminated. The greatest possible protection against vertical or horizontal misalignment of the rails is provided.
The uniform distribution of all dead and live loads over the entire track area provides for the greatest possible track stability by drastic reduction of maximum ground pressure. Applying the greatest possible traffic loads, with locomotive wheel loads of l5 tons on standard gauge track, produces a uniformly distributed ground Y pressure of. less than 0.6 ton per square foot of directly cept in such cases as recently filled ground or unstable deep subgrade compressible soils. Where settlements occur, correction by well known soil stabilization or pressure grout jacking methods can conveniently be made at low cost.
The strong rail chairs deeply embedded in concrete and securely connected with the steel reinforcing elements of the slabs have no parts protruding over the surface that could be damaged during the construction period, and they become essentially integral parts of the concrete slab. The hammerhead bolts are securely held by the rail chairs and are safely locked in correct immovable position, and thus they provide for secure fastening of the rails in place by the rail clips. Track bolts and clips are, however, easily removable to permit replacement of worn or damaged rails.
Our new method of railway concrete track construction eliminates the use of wood ties with all their accessories of rail plates, spikes, anticreep devices and other fittings. Entirely eliminated also are stone or cinder ballast materials, and labor to place and maintain it. The continuous support of the rails on resilient insulation, and the uniform distribution of greatly decreased ground pressures from live and dead loads, permit the use of lighter weight rails than could otherwise be employed, and assure long rail life by elimination of bending and exing stresses. Spreading of rails is substantially impossible. The great weight and stability of the permanent track structure eliminates rail creeping sections.
Economic advantages, as compared with customary wood tie railway track construction, accrue from combined savings of costs of track construction, maintenance and operation.
Reinforced concrete work of high quality can now be produced at moderate cost in almost every country and locality by experienced builders using highly developed concrete production equipment. Cement and concrete aggregates are available almost everywhere from local suppliers.
Costs of concrete railway track maintenance, one of the most expensive items of railroad service, amount to only a small fraction of the costs for maintenance of conventional wooden crosstie tracks.
Costs of railway operations are greatly irduenced by railway track conditions. The permanent stability of our concrete track structure provides for increased safety, greater speed and larger service capacity of the roadbed. On account of the improved track conditions, provided by our construction, excessive deterioration` of locomotives and cars is avoided, with appreciable savings for rolling stock maintenance and repairs. The increased lifetime of its service also provides for reduced costs of amorti being provided with a housing forming an enclosure about the undersurface thereof and further having an aperture extending therethrough into said enclosure, said rail chairs being securely attached to the concrete reinforcing elements, and fastening means extending through said apertures and engaging the projecting end portions of the chair plates within said enclosures and securing said rails to said chair plates.
2. A rail chair assembly for use in railway track construction of the character described comprising a metal chair plate having a slot formed in each end portion thereof, a housing forming an enclosure about the undersurface of each end portion of the' chair plate into which said slot opens, anchor legs projecting downwardly from said plate and adapted to be anchored in a concrete slab, hammerhead bolts having heads of such dimensions as to be capable of insertion through the slots of said plate and, upon turning, of becoming interlocked therewith, and rail clips adapted to be secured to said plate by said bolts.
3. A rail chair assembly of the character described comprising a metal chair plate having a slot formed in each end portion thereof, hammerhead bolts having heads of such dimensions as to be capable of insertion through the slots of said plate and, upon turning, of becoming 6 interlocked therewith, and rail clips adapted to -be secured to said plate by said bolts, each of said rail clips having a lug projecting from its undersurface in position to enter the slot in the chair plate alongside the bolt and substantially prevent turning of the bolt.
4. A rail chair assembly of the character described comprising a metal chair plate having a slot formed in each end portion thereof, hammerhead bolts having shank diameters and head widths only slightly less than the width of said slots and having heads of a length less than the length of said slots, whereby the head of one such bolt may be inserted through each slot in the chair plate and, upon turning through substantially may be interlocked with the chair plate, rail clips having bolt holes extending therethrough adapted to be placed on said bolts and secured thereby to said chair plates, lugs projecting from the underside of said rail clips in position to enter said slots alongside the bolts therein and prevent turning of said bolts suciently to become disengaged from the chair plates, and a housing on the underside of the chair plate about each slot therein and enclosing the space occupied by the bolt head and clip lug, whereby said chair plate may be embedded in concrete Without interfering with ready installation at a later time of said bolts and rail clips.
References Cited in the file of this patent UNITED STATES PATENTS 306,090 Moy Oct. 7, 1884 966,465 Mobley Aug. 9, 1910 1,109,267 Thomas Sept. l, 1914 1,349,819 Davidson Aug. 17, 1920 1,350,760 Wilson Aug. 24, 1920 1,527,124 Day Feb. 17, 1925 1,716,911 Alfred et al. June 11, 1929 1,745,748 Day Feb. 4, 1930 1,796,851 Maeomber Mar. 17, 1931 1,855,850 Faries et al Apr. 26, 1932 2,272,218 Maxey Feb. 10, 1942 2,656,115 Sonneville Oct. 20, 1953 FOREIGN PATENTS 521,826 Great Britain May 31, 1940
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4106694A (en) * 1976-07-13 1978-08-15 Santo Salvino Prefabricated rail base unit consisting of a plurality of projections and a single continuous slab
FR2594153A1 (en) * 1986-02-07 1987-08-14 Alsthom Cgee Device for installing rails of a railway track on a base plate and method for laying a railway track comprising the said device
WO1998032922A1 (en) * 1997-01-22 1998-07-30 Guss-Ring Gmbh & Co. Vertriebs-Kg Method for fastening rails onto concrete supporting plates or concrete joists
NL1030145C2 (en) * 2005-10-07 2007-04-11 Konink Bam Groep Nv Concrete slab casting method for ballastless track using shuttering, has cross direction shuttering formed by end parts secured to cross ties on either side of track
SG161165A1 (en) * 2008-10-28 2010-05-27 Italian Thai Dev Public Compan Precast track plinth
US11085153B2 (en) * 2017-06-01 2021-08-10 Alstom Transport Technologies Method for manufacturing a railway track support, associated railway track support and railway installation

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US306090A (en) * 1884-10-07 Railway-tie
US966465A (en) * 1908-12-14 1910-08-09 Richard Mobley Railway road-bed.
US1109267A (en) * 1912-03-21 1914-09-01 John B Thomas Railway-bed and rail-support.
US1349819A (en) * 1916-11-13 1920-08-17 Hydraulic Pressed Steel Co Concrete form
US1350760A (en) * 1919-08-08 1920-08-24 Lydell L Wilson Method for building reinforced railway-beds
US1527124A (en) * 1924-05-10 1925-02-17 William P Day Renewable rail-bed structure and method of construction
US1716911A (en) * 1927-06-16 1929-06-11 Frank H Alfred Railway-roadbed construction
US1745748A (en) * 1929-07-15 1930-02-04 William P Day Method of forming roadbeds for railways
US1796851A (en) * 1926-07-08 1931-03-17 Macomber Steel Company Method of making fireproof floor constructions
US1855850A (en) * 1931-03-16 1932-04-26 Faries Robert Anchorage for rail tie plates
GB521826A (en) * 1938-11-29 1940-05-31 Joah Haigh Walker Improvements in or relating to the laying of reinforced concrete
US2272218A (en) * 1939-10-07 1942-02-10 Maxey Robert E Lee Steel tie
US2656115A (en) * 1949-04-01 1953-10-20 Sonneville Roger Railway sleeper of reinforced concrete with rail fastening bolts

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Publication number Priority date Publication date Assignee Title
US306090A (en) * 1884-10-07 Railway-tie
US966465A (en) * 1908-12-14 1910-08-09 Richard Mobley Railway road-bed.
US1109267A (en) * 1912-03-21 1914-09-01 John B Thomas Railway-bed and rail-support.
US1349819A (en) * 1916-11-13 1920-08-17 Hydraulic Pressed Steel Co Concrete form
US1350760A (en) * 1919-08-08 1920-08-24 Lydell L Wilson Method for building reinforced railway-beds
US1527124A (en) * 1924-05-10 1925-02-17 William P Day Renewable rail-bed structure and method of construction
US1796851A (en) * 1926-07-08 1931-03-17 Macomber Steel Company Method of making fireproof floor constructions
US1716911A (en) * 1927-06-16 1929-06-11 Frank H Alfred Railway-roadbed construction
US1745748A (en) * 1929-07-15 1930-02-04 William P Day Method of forming roadbeds for railways
US1855850A (en) * 1931-03-16 1932-04-26 Faries Robert Anchorage for rail tie plates
GB521826A (en) * 1938-11-29 1940-05-31 Joah Haigh Walker Improvements in or relating to the laying of reinforced concrete
US2272218A (en) * 1939-10-07 1942-02-10 Maxey Robert E Lee Steel tie
US2656115A (en) * 1949-04-01 1953-10-20 Sonneville Roger Railway sleeper of reinforced concrete with rail fastening bolts

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4106694A (en) * 1976-07-13 1978-08-15 Santo Salvino Prefabricated rail base unit consisting of a plurality of projections and a single continuous slab
FR2594153A1 (en) * 1986-02-07 1987-08-14 Alsthom Cgee Device for installing rails of a railway track on a base plate and method for laying a railway track comprising the said device
WO1998032922A1 (en) * 1997-01-22 1998-07-30 Guss-Ring Gmbh & Co. Vertriebs-Kg Method for fastening rails onto concrete supporting plates or concrete joists
NL1030145C2 (en) * 2005-10-07 2007-04-11 Konink Bam Groep Nv Concrete slab casting method for ballastless track using shuttering, has cross direction shuttering formed by end parts secured to cross ties on either side of track
WO2007117133A1 (en) * 2005-10-07 2007-10-18 Koninklijke Bam Groep N.V. Method for pouring sleepers and formwork used therefore
SG161165A1 (en) * 2008-10-28 2010-05-27 Italian Thai Dev Public Compan Precast track plinth
US11085153B2 (en) * 2017-06-01 2021-08-10 Alstom Transport Technologies Method for manufacturing a railway track support, associated railway track support and railway installation

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