CA1326225C - Rail fastener - Google Patents
Rail fastenerInfo
- Publication number
- CA1326225C CA1326225C CA 552116 CA552116A CA1326225C CA 1326225 C CA1326225 C CA 1326225C CA 552116 CA552116 CA 552116 CA 552116 A CA552116 A CA 552116A CA 1326225 C CA1326225 C CA 1326225C
- Authority
- CA
- Canada
- Prior art keywords
- rail
- support plate
- elastomeric material
- plate
- support
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
ABSTRACT
A rail fastener having a rail support plate coated with electrical resistant elastomeric material to protect against electrical current leakage from the rail through the rail support plate is described. The only part of the support plate not coated with the elecgtrical resistant elastomeric material are the serrations of the support plate. The coating of the support plate protects against current leakage from the rail to the support systems.
A rail fastener having a rail support plate coated with electrical resistant elastomeric material to protect against electrical current leakage from the rail through the rail support plate is described. The only part of the support plate not coated with the elecgtrical resistant elastomeric material are the serrations of the support plate. The coating of the support plate protects against current leakage from the rail to the support systems.
Description
` -~` 132S22~
RAIL FASTENER
This invention relates to ra~l fasteners as used in a rapid transit rail system wherein such fasteners are used to fasten the rails to an underlying structure such as wood ties, concrete ties or concrete slabs. The invention more specifically relates to an improved rail fastener to protect aga~nst electrical current leakage of the rail to the support system and to protect the meta1 components of the rail and/or rail fastener from corrosion.
Background of the Invent~on Rail fasteners of the general type described above have here-tofore been proposed: see e.g., German Auselgeschrift 1204697 and U.S.
Patent Nos. 3,576,293 and 3,784,097. The assemblies of each of the foregoing references include a base plate, a rail plate for attachment to the rail and positioned between the rail and the base plate, and an elastomeric material such as neoprene interposed between the base plate and the rail plate. The elastomeric material supports the rail plate from the base plate, damps vibration of the rail plate and electrically insulates the base plate and the rail plate and/or rail.
Because rap~d transit ra~ls are used as electrical conductors for traction power current as well as for tra~n speed command s~gnals, it is necessary to provide and mainta~n electrical insulation between the rails and the rail support structure. The aforesaid rail fasteners presently in use do prov~de some electrical insulation between the rails and the rail support structure. However, heretofore, the surface creepage paths provided by the insulating elements of exist~ng apparatus were found to be relatively short and easily contaminated with dirt and wheel and rail wear products. When these contaminated surfaces then became wet by fog, rain, or ground water, electrically conductive paths are formed over wh~ch electrical leakage currents flowed. Such leakage currents caused corrosion of the rail as well as of the metal parts of the rail fasteners and supports, resulting in further contamination of the surface creepage paths. This additional contamination of the creepage paths results in further reduction of the electrical resistance of the creepage paths and thence results in larger magni~udes of leakage currents.
- 132622~
Such excessive leakage currents from train operation over poorly insulated rails caused destructive corrosion of rail, rail fasteners, rail support structures, metal tunnel liners, concrete reinforcement bar and other metallic structures. An excessively low rail to rall support structure electrical resistance caused by such corrosion also tended to short out train speed command signals between the rails. In such a situation, the shorted section of track then appears to the tra~n speed command system as though it were occupied by a train, and for safety reasons train operation is disrupted. Such an occurence is generally referred to In the art as a "ghost train".
To prevent loss of electrical train speed command signals and leakage of electrical tract~on currents over potential creepage paths, ra~l circuit insulation integrity must be maintained, and the rail fastener or support insulat~on must provide electrical insulation even when wet and contaminated with electrolyte. Therefore, the ra~l must be insulated from the supporting structure and/or portions of the rail fastener with electrical ~nsulation means which provides relatively high electrical resistive surface creepage paths. Such high electrical resistive creepage paths will maximize the electrical leakage path resistance between rail and rail support even when the rail and the rail fastener or support apparatus are wet and/or contaminated with electrolyte.
In addition, the ra~l support insulating device must not interfere with the rail fastener's abil~ty to securely fasten the rail relative to the support structure and to limit relative movement of the rail to within acceptable tolerances in the vertical, lateral, roll and longitudinal directions.
., One form of ra~l support insulating device to prevent the above described current leakage is disclosed in U. S. Patent No. 4,616,484 which included an electrically non-conductive skirt member surrounding and extending outward from the ra~l fastener and over its support structure and a pair of planar disc members of electrically non-conductive material adjacent the bolt heads. Such a dev~ce adds extra components to a rail fastener to overcome the problem of current leakage. It is desirous to have a rail fastener that overcomes the problem of current leakage by incorporating additional electrical protect~on into the rail fastener.
~32622~
Summary of the Inventlon It ls an object of the present invention to provide an improved rail fastener that overcomes the problem of current leakage by incorporating current leakage protection into the rail fastener.
It ~s another object of the present invention to provide an improved rail fastener having a rail plate coated with an elastomer material that acts as a barrier against current leakage from the rail to the supporting structure and/or portions of the rail fastener. Further-more, the elastomeric material provides corrosion protection to the entire rail fas~ener and between the rail and rail fastener.
The rail fastener for fastening a rail to an underlylng support structure of a rapid trans~t rail system comprises (1) a rigid rail support plate to which a rail is attached; (2) ~eans to secure said rail to said r~gid rail metal support plate such that said rail will overlie said support plate in a predetermined area of said plate; (3) a means for securing said rail support plate to said support structure; (4) a resilient elastomeric material interposed between said support plate and sa~d support structure wherein said resilient elastomeric material allows for vertical and lateral movement of sald upper plate relative to said lower plate and provides electrical insulatfon within said rail fastener;
and (5) an electrical resistant elastomer~c material covering said support plate to prevent leakage of current from said rail and said support structure.
Description of the Drawings Other features of the invention will be apparent from the following description of illustrative embodiments thereof, which should be read in conjunction with the accompanying drawings, in which:
Fig. 1 is a top plan view of a rail fastener assembly in accordance with the invention;
Fig. 2 is a vert~cal section taken approximately along the line 2-2 of Fig. 1.
132622~
Description of the Preferred Embodiments With reference to the drawings, Fig. 1 and Fig. 2 show a typical rail fastener 10 as it appears when installed for directly affixing a rail 14 to a support structure 11. The ra~l fastener 10 has a rail support plate 16 and means to secure the rail to the support plate which in the present embodiment is a pair of clips 30 wherein the pair of clips 30 and support plates 16 are coated with electrical resistant elastomeric material 39, 35 according to the present invention. Although the electrical resistent elastomeric material coating the clips and support plate may be used on different rail fasteners, for purposes of illustration, it is shown as used on a rail fastener similar to that described in U. S. Patent No. 3,576,293.
The rail fastener 10 further includes a lower plate 18, which is also coated with electrical resistant elastomeric material 36, whlch is interconnected to the support plate 16 by resilient elastomeric material 20. The rail 14 is mounted in place on the rail support plate 16 and held in place by the clips 30.
The support plate 16 generally has a lateral width of approximately 14.5 inches and a longitudinal extent, parallel to the direction of the rail 14 of about 7.5 inches and a thickness of about 1/2 inch, having openings 26 at two of its diagonally opposite corner areas for reception of the anchor bolts 12. Located on the upper surface of the support plate 16 is a series of serrations 41 extending in a direction paral1el to the direction of the rail 14. However, in some applications it is known that the d~rection of the serration may be at an angle to the direction of the rail.
The layer of resilient elastomeric material 20 is interposed between the support plate 16 and the lower plate 18 to provide vibrational damping for the support plate 16 and to electrically isolate the support plate 16 from the support structure 11. In a typical rail fastener, the resillent elastomeric material 20 has a thickness of about 0.75 inches.
A plurality of laterally directed elongated voids 25 are provided in the resilient elastomeric mater1al 20 (see Fig. 1) in the central region generally underlying the ra~l 14. The voids 25 are spaced apart along the direction of the rail 14 by approximately 1 inch between center lines.
132~22~
The rail support plate is adapted to be fixedly secured to a support structure 11, such as a wood tie, concrete tie or concrete slab, by means such as suitable anchor bolts 12. The bolts 12 pass through openings 26 in the plates 16 and 18 to threadably mate with a metallic insert 88 anchored in the support structure 11. A pair of plastic inserts 13 surround the anchor bolts 12. The inserts are disposed coaxially of the anchor bolts 12 through plate 16 in the opening 26.
The pair of clips 30 are each attached by a bolt 32a and a nut 32b to the support plate 16 and serve to secure the lower flanges 15 of the rail 14 to the support plate 16. The lower end of the bolt extends below the support plate 16 through a T slot 34 there~n and into an aligned, enlarged cavity 37 formed within the resilient elastomeric layer 20. The T slot 34 allows the clip 30 to be moved and ad~usted into engagement with the rail flange 15 before the bolt 32a and nut 32b are tightened. Located on each clip 30 is a set of teeth 42 which matches the serrations 41 of the upper plate 16 to facilitate locking of the clip in place as described above.
The rigid rail support plate 16 and the lower plate 18 of the rail fastener 10 are covered with a coat~ng of electr~cal resistant elastomeric material 35 bonded by vulcanization to sa~d support plate 16 and said lower plate 18 to cover any exposed metal part except for the set of serrations 41. The electrical resistant elastomeric material 35, 36 is a composition of natural rubber, or a mixture of natural rubber and styrene butad~ene, or neoprene. The rail fastener assemby, excluding the clips, is assembled in an upside down fashion in a mold in the following steps~
1) position a suitably calendered electrical resistant elastomeric material, which will cover the top upper plate, on the bottom of the mold;
2) position the rail support plate 16 onto the calendered electrical resistant elastomeric material such that pins of the mold correspond to openlngs 26 of the support plate 16;
RAIL FASTENER
This invention relates to ra~l fasteners as used in a rapid transit rail system wherein such fasteners are used to fasten the rails to an underlying structure such as wood ties, concrete ties or concrete slabs. The invention more specifically relates to an improved rail fastener to protect aga~nst electrical current leakage of the rail to the support system and to protect the meta1 components of the rail and/or rail fastener from corrosion.
Background of the Invent~on Rail fasteners of the general type described above have here-tofore been proposed: see e.g., German Auselgeschrift 1204697 and U.S.
Patent Nos. 3,576,293 and 3,784,097. The assemblies of each of the foregoing references include a base plate, a rail plate for attachment to the rail and positioned between the rail and the base plate, and an elastomeric material such as neoprene interposed between the base plate and the rail plate. The elastomeric material supports the rail plate from the base plate, damps vibration of the rail plate and electrically insulates the base plate and the rail plate and/or rail.
Because rap~d transit ra~ls are used as electrical conductors for traction power current as well as for tra~n speed command s~gnals, it is necessary to provide and mainta~n electrical insulation between the rails and the rail support structure. The aforesaid rail fasteners presently in use do prov~de some electrical insulation between the rails and the rail support structure. However, heretofore, the surface creepage paths provided by the insulating elements of exist~ng apparatus were found to be relatively short and easily contaminated with dirt and wheel and rail wear products. When these contaminated surfaces then became wet by fog, rain, or ground water, electrically conductive paths are formed over wh~ch electrical leakage currents flowed. Such leakage currents caused corrosion of the rail as well as of the metal parts of the rail fasteners and supports, resulting in further contamination of the surface creepage paths. This additional contamination of the creepage paths results in further reduction of the electrical resistance of the creepage paths and thence results in larger magni~udes of leakage currents.
- 132622~
Such excessive leakage currents from train operation over poorly insulated rails caused destructive corrosion of rail, rail fasteners, rail support structures, metal tunnel liners, concrete reinforcement bar and other metallic structures. An excessively low rail to rall support structure electrical resistance caused by such corrosion also tended to short out train speed command signals between the rails. In such a situation, the shorted section of track then appears to the tra~n speed command system as though it were occupied by a train, and for safety reasons train operation is disrupted. Such an occurence is generally referred to In the art as a "ghost train".
To prevent loss of electrical train speed command signals and leakage of electrical tract~on currents over potential creepage paths, ra~l circuit insulation integrity must be maintained, and the rail fastener or support insulat~on must provide electrical insulation even when wet and contaminated with electrolyte. Therefore, the ra~l must be insulated from the supporting structure and/or portions of the rail fastener with electrical ~nsulation means which provides relatively high electrical resistive surface creepage paths. Such high electrical resistive creepage paths will maximize the electrical leakage path resistance between rail and rail support even when the rail and the rail fastener or support apparatus are wet and/or contaminated with electrolyte.
In addition, the ra~l support insulating device must not interfere with the rail fastener's abil~ty to securely fasten the rail relative to the support structure and to limit relative movement of the rail to within acceptable tolerances in the vertical, lateral, roll and longitudinal directions.
., One form of ra~l support insulating device to prevent the above described current leakage is disclosed in U. S. Patent No. 4,616,484 which included an electrically non-conductive skirt member surrounding and extending outward from the ra~l fastener and over its support structure and a pair of planar disc members of electrically non-conductive material adjacent the bolt heads. Such a dev~ce adds extra components to a rail fastener to overcome the problem of current leakage. It is desirous to have a rail fastener that overcomes the problem of current leakage by incorporating additional electrical protect~on into the rail fastener.
~32622~
Summary of the Inventlon It ls an object of the present invention to provide an improved rail fastener that overcomes the problem of current leakage by incorporating current leakage protection into the rail fastener.
It ~s another object of the present invention to provide an improved rail fastener having a rail plate coated with an elastomer material that acts as a barrier against current leakage from the rail to the supporting structure and/or portions of the rail fastener. Further-more, the elastomeric material provides corrosion protection to the entire rail fas~ener and between the rail and rail fastener.
The rail fastener for fastening a rail to an underlylng support structure of a rapid trans~t rail system comprises (1) a rigid rail support plate to which a rail is attached; (2) ~eans to secure said rail to said r~gid rail metal support plate such that said rail will overlie said support plate in a predetermined area of said plate; (3) a means for securing said rail support plate to said support structure; (4) a resilient elastomeric material interposed between said support plate and sa~d support structure wherein said resilient elastomeric material allows for vertical and lateral movement of sald upper plate relative to said lower plate and provides electrical insulatfon within said rail fastener;
and (5) an electrical resistant elastomer~c material covering said support plate to prevent leakage of current from said rail and said support structure.
Description of the Drawings Other features of the invention will be apparent from the following description of illustrative embodiments thereof, which should be read in conjunction with the accompanying drawings, in which:
Fig. 1 is a top plan view of a rail fastener assembly in accordance with the invention;
Fig. 2 is a vert~cal section taken approximately along the line 2-2 of Fig. 1.
132622~
Description of the Preferred Embodiments With reference to the drawings, Fig. 1 and Fig. 2 show a typical rail fastener 10 as it appears when installed for directly affixing a rail 14 to a support structure 11. The ra~l fastener 10 has a rail support plate 16 and means to secure the rail to the support plate which in the present embodiment is a pair of clips 30 wherein the pair of clips 30 and support plates 16 are coated with electrical resistant elastomeric material 39, 35 according to the present invention. Although the electrical resistent elastomeric material coating the clips and support plate may be used on different rail fasteners, for purposes of illustration, it is shown as used on a rail fastener similar to that described in U. S. Patent No. 3,576,293.
The rail fastener 10 further includes a lower plate 18, which is also coated with electrical resistant elastomeric material 36, whlch is interconnected to the support plate 16 by resilient elastomeric material 20. The rail 14 is mounted in place on the rail support plate 16 and held in place by the clips 30.
The support plate 16 generally has a lateral width of approximately 14.5 inches and a longitudinal extent, parallel to the direction of the rail 14 of about 7.5 inches and a thickness of about 1/2 inch, having openings 26 at two of its diagonally opposite corner areas for reception of the anchor bolts 12. Located on the upper surface of the support plate 16 is a series of serrations 41 extending in a direction paral1el to the direction of the rail 14. However, in some applications it is known that the d~rection of the serration may be at an angle to the direction of the rail.
The layer of resilient elastomeric material 20 is interposed between the support plate 16 and the lower plate 18 to provide vibrational damping for the support plate 16 and to electrically isolate the support plate 16 from the support structure 11. In a typical rail fastener, the resillent elastomeric material 20 has a thickness of about 0.75 inches.
A plurality of laterally directed elongated voids 25 are provided in the resilient elastomeric mater1al 20 (see Fig. 1) in the central region generally underlying the ra~l 14. The voids 25 are spaced apart along the direction of the rail 14 by approximately 1 inch between center lines.
132~22~
The rail support plate is adapted to be fixedly secured to a support structure 11, such as a wood tie, concrete tie or concrete slab, by means such as suitable anchor bolts 12. The bolts 12 pass through openings 26 in the plates 16 and 18 to threadably mate with a metallic insert 88 anchored in the support structure 11. A pair of plastic inserts 13 surround the anchor bolts 12. The inserts are disposed coaxially of the anchor bolts 12 through plate 16 in the opening 26.
The pair of clips 30 are each attached by a bolt 32a and a nut 32b to the support plate 16 and serve to secure the lower flanges 15 of the rail 14 to the support plate 16. The lower end of the bolt extends below the support plate 16 through a T slot 34 there~n and into an aligned, enlarged cavity 37 formed within the resilient elastomeric layer 20. The T slot 34 allows the clip 30 to be moved and ad~usted into engagement with the rail flange 15 before the bolt 32a and nut 32b are tightened. Located on each clip 30 is a set of teeth 42 which matches the serrations 41 of the upper plate 16 to facilitate locking of the clip in place as described above.
The rigid rail support plate 16 and the lower plate 18 of the rail fastener 10 are covered with a coat~ng of electr~cal resistant elastomeric material 35 bonded by vulcanization to sa~d support plate 16 and said lower plate 18 to cover any exposed metal part except for the set of serrations 41. The electrical resistant elastomeric material 35, 36 is a composition of natural rubber, or a mixture of natural rubber and styrene butad~ene, or neoprene. The rail fastener assemby, excluding the clips, is assembled in an upside down fashion in a mold in the following steps~
1) position a suitably calendered electrical resistant elastomeric material, which will cover the top upper plate, on the bottom of the mold;
2) position the rail support plate 16 onto the calendered electrical resistant elastomeric material such that pins of the mold correspond to openlngs 26 of the support plate 16;
3) position the plastic inserts 13 over the pins into the support plate 16;
4) position the lower plate 18 such that the pins allign the lower plate 18 with the support plate 16; and 5) position a suitable calendered electrical resistant elastomeric matrial which will cover the bottom of the lower plate, on top of the assembled components.
Thereafter, the mold is closed, and the resilient elastomeric material 20 is injected intermediate of said support plate 16 and said lower plate 18. The elastomeric material is then vulcanized at a tempera-ture from 300 to about 340F at a pressure from about 2000 to about 3000 psi for a time from about 15 to about 20 minutes depending on the elastomeric material and desired properties.
The clips 30 are coated with the electrical resistant elastomeric material 39 by a dipping or coating process to cover exposed metal parts except for the teeth 42. The elastomer coating for the clip may or may not be the same composition as the elasto-mer used on the support plate 16. One suitable material which is commercially available is CHEMGLAZE
331 (CHEMGLAZE is a registered trade-mark of Lord Corporation). The electrical resistant elastomeric material 35, 36 may be the same elastomeric material as the resilient elastomeric material 20. The thick-ness of the coating of elastomeric material on theclips 30 and support plate 16 is about .0625 inch.
When the clips and upper plate of the rail fastener have been coated with elastomeric material, the flow of leakage current through the fastener is greatly reduced or essentially entirely limited.
While the invention has been described with -reference to a preferred embodiment, it will be under-stood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing ~rom the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teaching of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the -particular embodiment disclosed as the best mode con-templated for carrying out this invention, but that 132622~
the invention will include all embodiments falling within the scope of the appended claims.
- 6a -, . ~
: . : .
,
Thereafter, the mold is closed, and the resilient elastomeric material 20 is injected intermediate of said support plate 16 and said lower plate 18. The elastomeric material is then vulcanized at a tempera-ture from 300 to about 340F at a pressure from about 2000 to about 3000 psi for a time from about 15 to about 20 minutes depending on the elastomeric material and desired properties.
The clips 30 are coated with the electrical resistant elastomeric material 39 by a dipping or coating process to cover exposed metal parts except for the teeth 42. The elastomer coating for the clip may or may not be the same composition as the elasto-mer used on the support plate 16. One suitable material which is commercially available is CHEMGLAZE
331 (CHEMGLAZE is a registered trade-mark of Lord Corporation). The electrical resistant elastomeric material 35, 36 may be the same elastomeric material as the resilient elastomeric material 20. The thick-ness of the coating of elastomeric material on theclips 30 and support plate 16 is about .0625 inch.
When the clips and upper plate of the rail fastener have been coated with elastomeric material, the flow of leakage current through the fastener is greatly reduced or essentially entirely limited.
While the invention has been described with -reference to a preferred embodiment, it will be under-stood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing ~rom the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teaching of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the -particular embodiment disclosed as the best mode con-templated for carrying out this invention, but that 132622~
the invention will include all embodiments falling within the scope of the appended claims.
- 6a -, . ~
: . : .
,
Claims (2)
1. A rail fastener for fastening a rail to a support structure comprising:
(a) a rigid rail support plate having a set of serrations;
(b) a clip means to secure said rail to said support plate having a set of teeth wherein said set of serrations and teeth interlock when said clip is positioned such that said rail will overlie said rail support plate in apredetermined area of said plate;
(c) a means for securing said rigid rail support plate to said support structure;
(d) a resilient elastomeric material disposed intermediate of said support plate and said support structure wherein said resilient elastomeric material allows for vertical and lateral movement of said support plate relative to said support structure and provides electrical insulation within said rail fastener;
(e) a lower plate disposed between said resilient elastomeric material and said support structure; and (f) a coating of an electrically resistant elastomeric material separately totally encapsulating and being bonded to each of the following components: said rigid rail support plate except for said set of serrations;
said clips means except for its teeth; said lower plate; and means for securing said rigid rail support plate to said support structure.
(a) a rigid rail support plate having a set of serrations;
(b) a clip means to secure said rail to said support plate having a set of teeth wherein said set of serrations and teeth interlock when said clip is positioned such that said rail will overlie said rail support plate in apredetermined area of said plate;
(c) a means for securing said rigid rail support plate to said support structure;
(d) a resilient elastomeric material disposed intermediate of said support plate and said support structure wherein said resilient elastomeric material allows for vertical and lateral movement of said support plate relative to said support structure and provides electrical insulation within said rail fastener;
(e) a lower plate disposed between said resilient elastomeric material and said support structure; and (f) a coating of an electrically resistant elastomeric material separately totally encapsulating and being bonded to each of the following components: said rigid rail support plate except for said set of serrations;
said clips means except for its teeth; said lower plate; and means for securing said rigid rail support plate to said support structure.
2. A rail fastener according to claim 1 wherein said resilient elastomeric materials and said electrically resistant elastomeric material are the same.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US93892186A | 1986-12-05 | 1986-12-05 | |
| US06/938,921 | 1986-12-08 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1326225C true CA1326225C (en) | 1994-01-18 |
Family
ID=25472208
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA 552116 Expired - Fee Related CA1326225C (en) | 1986-12-05 | 1987-11-18 | Rail fastener |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1326225C (en) |
-
1987
- 1987-11-18 CA CA 552116 patent/CA1326225C/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKLA | Lapsed |