RU2007112949A - PLASTIC BEAM FOR REGULATING ENERGY ABSORPTION - Google Patents

Claims (25)

1. A pipe for regulating energy absorption, adapted to reliable and predictable absorption of a significant amount of impact energy in a longitudinal impact, containing: a first polymer pipe section; a second polymer pipe section located in line with the first pipe section; and an intermediate polymer pipe section with first and second end parts, by means of which the first and second pipe sections are connected integrally, respectively; moreover, the first and second pipe sections differ in size, and the intermediate pipe section has a shape that is transitional from the shape of the first pipe section to the shape of the second pipe section; the first pipe section is larger than the second pipe section and includes an outer surface forming a tubular boundary; the first end portion includes a continuous strip of material designed to maintain and maintain stability during longitudinal bending of the first pipe section during longitudinal impact; the second end part, in contrast, is designed so that telescopic rolling of the second pipe section during impact begins, while the first pipe section maintains its stability during longitudinal bending. 2. A pipe for regulating energy absorption, adapted to reliable and predictable absorption of a significant amount of impact energy in a longitudinal impact, containing: a first polymer pipe section having a first deformation resistance; a second polymer pipe section having a second deformation resistance, the second deformation resistance being greater than the first deformation resistance; and an intermediate polymer pipe section by which a first pipe section is connected to a second pipe section; with a longitudinal impact, the intermediate section of the pipe and the first section of the pipe roll predictably and faster than the second section of the pipe over the intermediate section of the pipe, with the perception of the force of the longitudinal impact; in which the second pipe section is larger than the first pipe section; the intermediate section of the pipe is shaped so that telescopic rolling of the first section of the pipe during impact begins, while the second section of the pipe retains its stability during longitudinal bending. 3. A pipe for regulating energy absorption according to claim 1 or 2, comprising a bumper beam attached to the free end of one of the first or second pipe sections. 4. A pipe for regulating energy absorption according to claim 1 or 2, comprising a vehicle frame attached to at least one of the first or second pipe sections. 5. A pipe for regulating energy absorption according to claim 1 or 2, comprising a transverse car frame member attached to at least one of the first or second pipe sections. 6. The pipe for regulating energy absorption according to claim 1 or 2, in which the first and second pipe sections have similar geometric shapes of cross sections, but different sizes of cross sections. 7. The pipe for regulating energy absorption according to claim 1 or 2, in which at least one of the first or second pipe sections has a circular cross-sectional shape. 8. An elevator system comprising an elevator shaft with a lower part and a pipe for regulating energy absorption according to claim 1 or 2, located therein. 9. A driver protection system comprising a bridge support comprising a pipe for regulating energy absorption according to claim 1 or 2, located in front of the bridge support. 10. The pipe for regulating energy absorption according to claim 1 or 2, in which at least one of the first or second sections of the pipe contains a wall having a variable thickness. 11. The pipe for regulating energy absorption according to claim 1 or 2, additionally containing at least one metal component, molded in at least one of the pipe sections. 12. The pipe for regulating energy absorption according to claim 1 or 2, in which at least one of the first or second sections of the pipe contains at least one groove from which the shearing begins. 13. Mat for regulating energy absorption, containing many pipes for regulating energy absorption according to claim 1 or 2. 14. A method of manufacturing a pipe for regulating the absorption of energy, adapted to reliable and predictable absorption of a significant amount of impact energy in a longitudinal impact, including: molding the first polymer pipe section; molding a second polymer pipe section; the location on the line of the second pipe section with the first pipe section; and forming the intermediate polymer pipe section with the first and second end parts, by means of which the first and second pipe sections are connected integrally; moreover, the first and second pipe sections differ in size, and the intermediate pipe section has a shape that is transitional from the shape of the first pipe section to the shape of the second pipe section; and the first pipe section is larger than the second pipe section, and includes an outer surface forming a tubular boundary; the first end portion includes a continuous strip of material designed to maintain and maintain stability during longitudinal bending of the first pipe section during longitudinal impact; the second end part, in contrast, is designed so that telescopic rolling of the second pipe section during impact begins, while the first pipe section maintains its stability during longitudinal bending. 15. A method of manufacturing a pipe for controlling energy absorption according to claim 14, comprising attaching a bumper beam to the free end of one of the first or second pipe sections. 16. A method of manufacturing a pipe for regulating energy absorption according to claim 14, comprising attaching a vehicle frame to at least one of the first or second pipe sections. 17. A method of manufacturing a pipe for regulating energy absorption according to claim 14, comprising attaching a transverse element of the car frame to at least one of the first or second pipe sections. 18. A method of manufacturing a pipe for regulating energy absorption according to 14, in which the first and second pipe sections have similar geometric shapes of cross sections, but different sizes of cross sections. 19. A method of manufacturing a pipe for regulating energy absorption according to 14, in which at least one of the first or second pipe sections has a circular cross-sectional shape. 20. A method of manufacturing a pipe for regulating energy absorption according to 14, further comprising a process of molding at least one metal component in at least one of the pipe sections. 21. A method of manufacturing a pipe for regulating energy absorption according to 14, in which at least one of the first or second pipe sections contains at least one groove from which the shearing begins. 22. The pipe for regulating energy absorption according to claim 1, in which the first pipe section contains a first end region having a greater thickness than the remaining parts of the first pipe section, the second pipe section and the intermediate pipe section. 23. Mat for regulating energy absorption according to item 13, in which the second pipe section contains a first end region having a greater thickness than the remaining parts of the pipe section, the first pipe section and the intermediate pipe section. 24. A pipe for regulating energy absorption, adapted to reliable and predictable absorption of a significant amount of impact energy in a longitudinal impact, containing: a first polymer pipe section having a first deformation resistance; a second polymer pipe section having a second deformation resistance, the second deformation resistance being greater than the first deformation resistance; and an intermediate polymer pipe section by which a first pipe section is connected to a second pipe section; with a longitudinal impact, the intermediate section of the pipe and the first section of the pipe roll predictably and faster than the second section of the pipe over the intermediate section of the pipe, with the perception of the force of the longitudinal impact; and in which the second pipe section contains a first end region having a greater thickness than the remaining parts of the second pipe section, the first pipe section and the intermediate pipe section. 25. The pipe for regulating energy absorption according to paragraph 24, in which the first end region is adjacent to the intermediate section of the pipe.