IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0800171
(2001-03-05)
|
발명자
/ 주소 |
- Sullivan, Henry W.
- Krouse, Gregory P.
- Krygsman, William J.
|
출원인 / 주소 |
- Tie Tek, Inc., North American Technologies Group, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
1 |
초록
▼
Thermoplastic polymers, rubbery polymeric components and reinforcing fillers are mixed and heated to a range of 380° F. to 440° F. The resulting mixture is then fed into a Banbury mixer, with the resulting mixture fed into a diverter feeding two molds. The velocity of the piston of each mo
Thermoplastic polymers, rubbery polymeric components and reinforcing fillers are mixed and heated to a range of 380° F. to 440° F. The resulting mixture is then fed into a Banbury mixer, with the resulting mixture fed into a diverter feeding two molds. The velocity of the piston of each mold being filled is controlled to thereby control the density of the molded product along its length. As each mold is filled, it is deposited in a cool water bath (50° F.-60° F.) while the next mold is being filled. The molds are sequentially transferred to an air cooling rack to complete the process. A texture, generally comprising indentations perpendicular to the longitudinal axis on the molded object, provides a frictional surface between the railway crosstie and the ballast beneath the crosstie.
대표청구항
▼
1. An individually molded member for use as a railroad tie or other structural member having a constant density, comprising:a mixture of:from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing
1. An individually molded member for use as a railroad tie or other structural member having a constant density, comprising:a mixture of:from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing filler; andwherein said member is formed by extruding said mixture into an individual mold andwherein said constant density is controlled during a filling of said mold. 2. A polymeric composite for usage in molding applications for railroad ties or other structured members comprising:a thermoplastic polymer component comprising recycled polyolefin, recycled copolymers thereof or combinations thereof and comprising about 25% to about 55% of said composite;a recycled rubbery polymeric component comprising about 4% to about 55% of said composite;a recycled reinforcing filler component comprising about 4% to about 55% of said composite, wherein said reinforcing filler is comprised of at least one of the materials selected from the group of materials consisting essentially of carbon black, fly ash, mica, fiberglass, aragonite, crushed concrete, sand and crushed glass and any combination thereof; andwherein the thermoplastic polymer component, rubbery polymeric component, and reinforcing filler are heated by frictional mixing in a closed chamber mixer until such components reach about 380° F. to about 440° F. degrees. 3. The member of claim 1, wherein said density is controlled by a brake and piston. 4. The member of claim 1, wherein said density is computer controlled by a piston. 5. The member of claim 1, having a predetermined length and wherein said density is constant along said length of said member. 6. An individually molded member for use as a railroad tie or other structural member having a varied density, comprising:a mixture of:from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing filler; and wherein said member is formed by extruding said mixture into an individual mold and wherein said varied density is controlled during a filling of said mold. 7. The member of claim 6, wherein said density is controlled by a brake and piston. 8. The member of claim 6, wherein said density is computer controlled by a piston. 9. The member of claim 6, having a predetermined length and wherein said density is varied along said length of said member. 10. An individually or substantial individually molded member with at least one textured side surface for use as a railroad tie or other structural member, comprising:a molded member having a plurality of side surfaces and comprised of a mixture of:from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing filler;wherein at least one side surface of the member is textured after the member is molded. 11. The member of claim 10, wherein said member has a plurality of textured side surfaces. 12. The member of claim 10, whereby said surface is textured by applying an embossing pattern under heat and pressure to melt and deform at least one side surface of the member. 13. The member of claim 10, wherein said at least one textured surface comprises a plurality of indentations at least about ⅛ inch deep. 14. The member of claim 10, wherein said member is a tie and wherein said at least one textured surface comprises a plurality of indentations that provide surfaces perpendicular to a longitudinal axis of the tie. 15. The member of claim 10, wherein said at least one textured surface comprises a plurality of indentations at least about ¼ inch wide, but less than about 6 inches wide. 16. The member of claim 10, wherein said at least one textured surface provides corners or indentations to capture and hold ballast. 17. The member of claim 15, wherein said member is a tie having a plurality of sides with a textured surface comprising indentations that provide resistance to force across at least about 10% of said textured surface. 18. An improved system for supporting railroad rails, comprising:a molded railroad tie, comprised of a mixture offrom about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component;from about 4% to about 55% of a reinforcing filler;wherein the railroad tie has at least two side surfaces, a bottom surface, and a first end and a second end, wherein at least one side surface and the bottom surface is textured after molding and wherein the texturing comprises indentations at least about ¼ inch wide, but less than about 6 inches wide;ballast placed below and around the railroad tie; andsteel rails mounted on the railroad tie. 19. The system of claim 18, wherein the textured surface comprises indentations that provide surfaces perpendicular to the longitudinal axis of the railroad tie that increases the frictional force between the railway crosstie and the ballast. 20. The system of claim 18, wherein the textured surface resists a force by means of friction against the ballast placed below and around the railroad tie. 21. The system of claim 18, wherein the force is imposed by train wheels and wherein the indentations provide resistance to force across at least about 10% of the textured tie surface. 22. A process for forming a molded member for use as a railroad tie, lumber or other structural member, comprising the steps of:mixing materials comprising,from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing filler;injecting or extruding said mixture into a mold having at least one side, said mixture at least partially filling said mold, such that said mixture has at least one side surface and an interior portion;cooling said mixture whereby said at least one side surface is at least partially hardened, thereby at least partially forming a member;removing said member from said mold before said interior portion of said mixture is substantially hardened;placing said member within or about a cooling apparatus; androtating said member about said cooling apparatus whereby said interior is at least substantially hardened. 23. The method of claim 22 wherein said thermoplastic polymer is comprised of at least one of the materials selected from the group of materials consisting essentially of recycled polyolefins, recycled bucket resin, recycled drum resin, densified film, recycled grocery bags, electric wire coating, and recycled bottle resin or any combination thereof. 24. The method of claim 22 wherein said rubbery component is comprised of at least one of the materials selected from the group of materials consisting essentially of crumb rubber, automotive fluff, tire belt fluff, carpet backing, rubber backing and recycled circuit boards or any combination thereof. 25. The method of claim 22 wherein said reinforcing filler is comprised of at least one of the materials selected from the group of materials consisting essentially of carbon black, fly ash, mica, fiberglass, aragonite, crushed concrete, sand and crushed glass or any combination thereof. 26. The method of claim 22 wherein said materials each comprise from about 25% to 55% of said mixture. 27. The method of claim 22 wherein said thermoplastic polymer and rubbery components comprise at least 20% of said mixture. 28. The method of claim 22 where in said mixture is heated by frictional and/or compressive heating of said mixer. 29. The method of claim 22 wherein said mixture is at least partially heated by an external heat source. 30. The method of claim 29 wherein said mixture is heated to about 380 degrees to about 440 degrees. 31. The method of claim 28 wherein said mixture is preferably heated to about 400 degrees to about 420 degrees. 32. A process for forming a molded m ember for use as a railroad tie or other structural members, comprising the steps of:mixing portions from about 25% to about 55% of a thermoplastic polymer,with from about 4% to about 55% of a rubbery polymeric component,with from about 4% to about 55% of a reinforcing filler in a Banbury mixer or other closed chamber mixer to mix said portions to form a flowable mixture; andextruding said mixture into a mold having a plurality of side walls, said mixture filling said mold;using a piston and brake to control the filling of said mold; andclosing the mold when it is filled. 33. A process for forming a member having a plurality of surfaces, for use as a railroad tie, lumber or other structural member, comprising the steps of:mixing,about 25% to about 55% of a thermoplastic polymer;about 4% to about 55% of a rubbery polymeric component;about 4% to about 55% of a reinforcing filler;injecting said mixture into a mold having at least one wall, wherein said mixture at least partially fills said mold about said wall, such that said mixture has at least one side surface along said wall and an interior portion;cooling said mixture whereby said at least one surface is at least partially hardened thereby at least partially forming a member;removing said member from said mold before said interior portion is substantially hardened;placing said member about a cooling apparatusrotating said member about said cooling apparatus whereby said interior is at least substantially hardened; andtexturing at least one surface of said member. 34. The process of claim 32, further comprising the step of using a valve to control the feed of said mixture into said mold. 35. The process of claim 34, further comprising the step of using an extruder between said Banbury mixer or other closed chamber mixer and said valve to transport said mixture to said valve. 36. The process of claim 35, further comprising the step of adjustably controlling a density of said extrudable material with a piston while the mold is being filled. 37. A process for form ma a molded member for use as a railroad tie, lumber or other structural member, comprising the steps of:mixing portions from about 25% to about 55% of a thermoplastic polymer,with from about 4% to about 55% of a rubbery polymeric component;with from about 4% to about 55% of a reinforcing filler until said portions form a flowable mixture;feeding said mixture into a mold having at least one side wall, said mixture at least partially fume said mold, such that said mixture has at least one side surface and an interior portion;using a Banbury mixer or other closed chamber mixer to mix said mixture;using an extruder between said Banbury mixer or other closed chamber mixer and said valve to transport said mixture to said valve;adjustably controlling a density of said extrudable material; andwherein at least one brake and/or at least one gear is used to control said density. 38. The process of claim 32, further comprising the step of filling at least one mold at a time. 39. The process of claim 38, further comprising the step of using a diverter valve to select the mold to be filled. 40. The process of claim 32, further comprising the step of cooling said molded mixture until the mixture is at least partially hardened thereby forming a member. 41. The process of claim 32, further comprising the step of placing the closed mold in a waterbath during cooling. 42. The process of claim 40, further comprising the steps of:removing said member from said mold before an interior portion is hardened; androtating said member upon a cooling apparatus until said interior of said member is hardened and/or cooled; andwhereby said rotation relieves internal stresses and prevents warpage. 43. A process for forming a molded member for use as a railroad tie, lumber or other structural member, comprising the steps of:mixing portions from about 25% to about 55% of a thermoplastic polymer,with from about 4% to about 55% of a rubbery polymeric com ponent;with from about 4% to about 55% of a reinforcing filler until said portions form a flowable mixture;feeding said mixture into a mold having at least one side wall, said mixture at least partially filling said mold, such that said mixture has at least one side surface and an interior portion;closing the mold after it is filled;placing the closed mold in a waterbath during cooling;removing said member from said mold before said interior portion is hardened;placing said member within or about a cooling apparatus; androtating said member about said cooling apparatus until said interior of said member is at least substantially hardened and/or cooled. 44. A process for forming a molded member for use as a railroad tie, lumber or other structural member, comprising the steps of:mixing portions from about 25% to about 55% of a thermoplastic polymer;with from about 4% to about 55% of a rubbery polymeric component;with from about 4% to about 55% of a reinforcing filler until said portions form a flowable mixture;feeding said mixture into a mold having at least one side wall, said mixture at least partially filling said mold, such that said mixture has at least one side surface and an interior portion;closing the mold after it is filled;placing the closed mold in a waterbath during cooling;removing said member from said mold before said interior portion is hardened;placing said member within or about a cooling apparatus;rotating said member about said cooling apparatus until said interior of said member is at least substantially hardened and/or cooled; andtexturing at least one surface of said member. 45. A method for making an individually or substantial individually molded member with at least one textured side surface for use as a railroad tie or other structural member, comprising:providing a molded member having a plurality of side surfaces that is comprised of a mixture of:from about 25% to about 55% of a thermoplastic polymer;from about 4% to about 55% of a rubbery polymeric component; andfrom about 4% to about 55% of a reinforcing filler; andtexturing at least one side surface of the member after the member is molded. 46. The method of claim 45, wherein said member has a plurality of textured side surfaces. 47. The method of claim 45, further comprising the step of texturing said at least one surface by applying an embossing pattern under heat and pressure to melt and deform said at least one surface. 48. The method of claim 45, wherein said at least one textured surface comprises a plurality of indentations at least about ⅛ inch deep. 49. The method of claim 45, wherein said member is a tie and wherein said at least one textured surface comprises a plurality of indentations that provide surfaces perpendicular to a longitudinal axis of the tie. 50. The method of claim 45, wherein said at least one textured surface comprises a plurality of indentations at least about ¼ inch wide, but less than about 6 inches wide. 51. The method of claim 45, wherein the textured surface of said member provides corners or holes to capture and hold ballast. 52. The method of claim 50, wherein said member is a tie having a plurality of sides with a textured surface comprising indentations that provide resistance to force across at least about 10% of said textured surface.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.