Disclosed is an automotive road construction machine, particularly a recycler or a cold stripping machine, comprising an engine frame that is supported by a chassis, a working roller which is stationarily or pivotally mounted on the engine frame and is used for machining a ground surface or road sur
Disclosed is an automotive road construction machine, particularly a recycler or a cold stripping machine, comprising an engine frame that is supported by a chassis, a working roller which is stationarily or pivotally mounted on the engine frame and is used for machining a ground surface or road surface. The chassis is provided with wheels or tracked running gears which are connected to the engine frame via lifting column and are vertically adjustable relative to the engine frame. Each individually vertically adjustable lifting column is equipped with a device for measuring the actual vertical state of the lifting column.
대표청구항▼
1. A road construction machine, comprising: a machine frame;a working drum supported from the machine frame for working a ground surface or traffic surface;a plurality of ground engaging supports for supporting the construction machine on the ground surface or traffic surface;a plurality of lifting
1. A road construction machine, comprising: a machine frame;a working drum supported from the machine frame for working a ground surface or traffic surface;a plurality of ground engaging supports for supporting the construction machine on the ground surface or traffic surface;a plurality of lifting columns, each one of the lifting columns being connected between the machine frame and one of the ground engaging supports, each one of the lifting columns including two telescoping hollow column members and at least one piston cylinder unit located within the telescoping hollow column members for adjusting a height of the lifting column so that each one of the lifting columns is adjustable in height relative to the machine frame, each lifting column having a lifting position corresponding to a position of one of the two telescoping hollow column members relative to the other of the two telescoping hollow column members; anda plurality of lifting position sensors, each lifting position sensor being coupled with elements of one of the lifting columns, which elements are capable of being displaced relative to one another in accordance with the lifting position of the lifting column in such a manner that a signal including information on a current lifting position of the lifting column is produced by the lifting position sensor, wherein each of the lifting position sensors is connected to the at least one piston cylinder unit located within its associated lifting column. 2. The road construction machine of claim 1, further comprising: a controller configured to receive the signals from the lifting position sensors, and to regulate the lifting positions of the lifting columns in response at least in part to the signals from the lifting position sensors. 3. The road construction machine of claim 2, further comprising: an indicator device operable to display the lifting positions of each of the lifting columns corresponding to the signals produced by the lifting position sensors. 4. The road construction machine of claim 2, wherein: the controller is configured to store the signals from the lifting position sensors corresponding to current lifting positions of the lifting columns and to thereby define a current spatial position of the machine frame as a reference spatial position of the machine frame. 5. The road construction machine of claim 2, wherein: the controller is configured to provide at least one limiting value for the height adjustment of each of the lifting columns. 6. The road construction machine of claim 5, wherein: the limiting value for the height adjustment prevents engagement of a mechanical limit stop of a piston against a cylinder of the piston cylinder unit of each lifting column. 7. The road construction machine of claim 5, wherein: the limiting value defines a predetermined lifting position of the respective lifting column such that the respective piston cylinder unit is not run up against a mechanical stop of the piston cylinder unit when the lifting column is in the predetermined position. 8. The road construction machine of claim 2, wherein: the controller is configured to regulate the lifting positions of the plurality of lifting columns in such a manner that the machine frame has a predetermined transverse inclination relative to the ground surface or traffic surface and transverse to a direction of travel of the machine frame. 9. The road construction machine of claim 8, wherein: the controller is configured to vary the transverse inclination of the machine frame in a pre-determined path-dependent transverse inclination sequence. 10. The road construction machine of claim 2, wherein: the controller is configured such that with the alteration of the lifting position and height of one of the lifting columns, a neighboring lifting column in transverse direction or longitudinal direction of the machine frame is adjusted in height in an opposite manner. 11. The road construction machine of claim 10, wherein: the height of the neighboring lifting column is adjusted by the same amount as the alteration of the height of said one of the lifting columns. 12. The road construction machine of claim 10, wherein: said one of the lifting columns and said neighboring lifting column are connected to two front ground engaging supports so that the lifting columns associated with front ground engaging supports are height-adjustable in the manner of a full-floating axle. 13. The road construction machine of claim 2, wherein: the controller is configured to reduce overshooting in the regulating of the lifting positions of the lifting columns with reference to desired lifting positions of the lifting columns. 14. The road construction machine of claim 2, wherein: the controller is configured to calibrate the lifting positions sensed by the lifting position sensors to a unit of length. 15. The road construction machine of claim 2, wherein: the controller is configured to regulate a working depth of the working drum at least in part in response to the signals produced by the lifting position sensors. 16. The road construction machine of claim 2, wherein: the controller is configured to raise the lifting columns synchronously to one another. 17. The road construction machine of claim 2, wherein: the controller is configured to lower the lifting columns synchronously to one another. 18. The road construction machine of claim 2, wherein: the controller is configured to move the machine frame from a first frame position to a second frame position by adjusting the heights of all of the lifting columns by equal amounts. 19. The road construction machine of claim 2, wherein: the controller is configured to bring the machine frame to a frame position parallel to the ground surface or traffic surface with the machine frame being a predetermined distance from the ground surface or traffic surface. 20. The road construction machine of claim 19, wherein: the frame position parallel to the ground surface or traffic surface is a horizontal position. 21. The road construction machine of claim 1, wherein: the working drum is fixed in height relative to the machine frame and a working depth of the working drum is adjusted by adjusting the lifting positions of the lifting columns. 22. The road construction machine of claim 1, further comprising: an indicator device operable to display the lifting positions of each of the lifting columns corresponding to the signals produced by the lifting position sensors. 23. The road construction machine of claim 22, wherein: the plurality of lifting columns includes two front lifting columns and two rear lifting columns; andthe indicator device is operable to display the lifting positions of the two front lifting columns and two rear lifting columns. 24. The road construction machine of claim 2, wherein: the controller is configured to raise and lower the plurality of lifting columns independently of one another. 25. The road construction machine of claim 2, wherein: the controller is configured to raise and lower a combination of lifting columns synchronously and by a specific amount. 26. The road construction machine of claim 2, wherein: the plurality of lifting position sensors comprises one or more inductive path measuring devices. 27. The road construction machine of claim 2, wherein: the plurality of lifting position sensors comprises one or more capacitive path measuring devices. 28. The road construction machine of claim 2, wherein: the plurality of lifting position sensors comprises one or more mechanical path measuring devices. 29. The road construction machine of claim 2, wherein: the plurality of lifting position sensors comprises one or more laser measuring devices. 30. A road construction machine, comprising: a machine frame;a working drum supported from the machine frame for working a ground surface or traffic surface;a plurality of ground engaging supports for supporting the construction machine on the ground surface or traffic surface;a plurality of lifting columns, each one of the lifting columns being connected between the machine frame and one of the ground engaging supports, each one of the lifting columns including two telescoping hollow column members and at least one piston cylinder unit located within the telescoping hollow column members for adjusting a height of the lifting column so that each one of the lifting columns is adjustable in height relative to the machine frame, each lifting column having a lifting position corresponding to a position of one of the two telescoping hollow column members relative to the other of the two telescoping hollow column members; anda plurality of lifting position sensors, each lifting position sensor being coupled with elements of one of the lifting columns, which elements are capable of being displaced relative to one another in accordance with the lifting position of the lifting column in such a manner that a signal including information on a current lifting position of the lifting column is produced by the lifting position sensor;wherein each of the lifting columns includes a lifting column support at a lower end of the lifting column, each lifting column support being attached to one of the ground engaging supports; andfurther comprising a plurality of distance sensors, one of said distance sensors being attached to each of the lifting column supports and arranged to measure a vertical distance of the lifting column support from the ground surface or traffic surface. 31. The road construction machine of claim 30, wherein: each of the distance sensors is located relative to its associated lifting column support, so that the vertical distance is measured at a pre-determined horizontal position relative to its associated ground engaging support. 32. The road construction machine of claim 30, wherein: the elements of the lifting column, which elements are capable of being displaced relative to one another in accordance with the lifting position of the lifting column, include the at least one piston cylinder unit located within the lifting column.
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이 특허에 인용된 특허 (33)
Busley, Peter; Tewes, Günter, Automotive construction engine and lifting column for a contruction engine.
Lent Kevin C. (Maple Grove MN) Rife ; Jr. Conwell K. (Champlin MN) Simmons Gerald P. (Morton IL) Speck Albert J. (Springfield IL), Control system for a road planer.
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Swisher ; Jr. George W. (Oklahoma City OK) Smith Donald W. (Edmond OK) Teel Larry W. (Yukon OK), Steering and cutter drum positioning in a paved roadway planing machine.
Snow ; Jr. Ralph K. (Oklahoma City OK) Grist Warren W. (Yukon OK) Kruger Joe Bill (Oklahoma City OK), Trimmer type road construction apparatus with pivotally connected conveyor.
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