Road Construction Machine, As Well As Method For Controlling The Distance Of A Road Construction Machine Moved On A Ground Surface

Information

  • Patent Application
  • 20110299926
  • Publication Number
    20110299926
  • Date Filed
    May 17, 2011
    13 years ago
  • Date Published
    December 08, 2011
    13 years ago
Abstract
In a road construction machine (1) with a machine frame (2), a chassis (4) carrying the machine frame (2) in a single plane, said chassis (4) moving on a ground surface (6) in the direction of travel (9) and comprising height adjustment devices (8) which adjust the position of the plane of the machine frame (2) in accordance with control signals of a levelling device (10), where the levelling device (10) measures the distance of the ground surface (6), at a current reference location (12) of the ground surface (6), to the machine frame (2) and controls the height adjustment devices (8) in such a fashion that the machine frame (2) is movable at an adjusted orthogonal distance to the reference location (12) of the ground surface (6), it is provided that a transmitter (15) is arranged at the machine frame (2) in a rigid fashion, and a receiver (16) is movable, parallel to and synchronously with the machine frame (2), next to the machine frame (2) along the current reference location (12), or that a receiver (16) is arranged at the machine frame (2) in a rigid fashion, and a transmitter (15) is movable, parallel to and synchronously with the machine frame (2), next to the machine frame (2) along the current reference location (12), where the transmitter (15) emits at least one measuring beam (17) representative of a reference plane (14), said measuring beam (17) being detectable by the receiver (16) and representing either a plane extending parallel to the machine frame (2) or a plane extending parallel to the ground surface (6) at the reference location (12), where the current distance of the machine frame (2) to the current reference location (12) is measurable from the detected position of the reference plane (14).
Description

The invention relates to a road construction machine as well as a method for controlling the distance of the machine frame of a road construction machine from a ground surface.


Such road construction machines, in particular road milling machines or recyclers, require a level reference for working a ground surface or a road surface in order to not identically copy the existing irregularities of the ground surface when working the ground surface or road surface. On the contrary, irregularities and corrugations are to be levelled out to the greatest possible extent by the working process. Without a reference value for the height adjustment of the machine frame or the working tool, the working result would, in the worst case, reproduce all of the irregularities and corrugations as well as inclinations, which would pose greater difficulties to machines following behind, such as asphalting machines or compaction rollers, to create an even, homogeneously compacted road pavement.


The road construction machine comprises a machine frame which is carried by a chassis in a single plane, where the chassis moves on a ground surface or road surface. The chassis carries the machine frame via at least three lifting columns (or, with small milling machines, only at least two lifting columns at the rear axle), which form a height adjustment device for the machine frame and which adjust the plane of the machine frame in accordance with control signals of a levelling device also with regard to a cross slope. The levelling device controls the distance of the machine frame to the ground surface currently driven over. It is already known for this purpose that the ground surface is scanned via side plates arranged at the side next to a working drum, or that a wire is tensioned along the driving route of the road construction machine, which can be scanned from the machine.


With machines comprising working drums rigidly mounted in the machine frame, the distance may be measured relative to the machine frame.


With machines in which the working drum is adjustable relative to the machine frame, additional consideration must be given to the distance of the working drum from the machine frame.


In case of a road surface, an advantageous reference location is frequently to be found in the center of the pavement as this is where the pavement shows hardly any damages, deformations or other irregularities.


It is already known in this regard to move a carriage next to the road construction machine along the center of the pavement, said carriage being connected to the road construction machine by means of a telescope. The telescope is designed to adjust a different lateral distance of the carriage. A displacement transducer is mounted at the free end of the telescopic rod, said displacement transducer detecting the distance of the telescopic rod relative to the ground surface or road surface. This solution using a telescope offers the advantage that, when working a second working or milling cut, the same reference location at the side of or on the road centerline can be used.


It is of disadvantage in this solution that, due to the widely projecting telescopic arm, a relevant deformation of the telescopic arm cannot be excluded so that the distance measurement could be distorted as a result.


It is the object of the invention to create a road construction machine of the type first mentioned above, or a method respectively, to control the distance of a road construction machine from a ground surface in which the distance measurement can be performed with increased accuracy and with higher reproducibility, as well as with lower equipment-related complexity.


As a result of the fact that a measuring beam representing a reference plane is directed towards a receiver arranged at a distance from the transmitter, the distance from the ground surface to the reference plane can be measured with high accuracy and reproducibility, without a mechanism which moves the receiver or the transmitter synchronously with the road construction machine being able to influence the measuring result. The measuring device can be calibrated prior to commencing work.


The distance signal detected can thus directly control the distance of the machine frame to the ground surface via the levelling device.


In this arrangement, it is provided that the transmitter or the receiver is movable, at a specifiable distance at the side of the machine frame, along a progressing reference location on the ground surface.


The specifiable lateral distance from the road construction machine, or the machine frame respectively, is designed to determine the position of the reference location, for instance, along a road centerline, said reference location being moved along with the road construction machine. In the event of several working cuts, it is possible to perform scanning by the receiver using the same reference location that was the basis for working the first working cut.


It is preferably provided that a working drum is mounted in the machine frame, and that the transmitter or the receiver is arranged in a plane which extends essentially orthogonal to the reference plane, and which also extends through or nearby the rotating axis of the milling drum.


Arranging the transmitter or the receiver in a common, essentially vertical plane with the axis of the working drum enables the distance value measured to be used, in the form of a measuring signal without conversion, by the levelling device to control the distance of the machine frame and therefore of the working drum.


When, in relation to the axis of rotation of the working drum, the reference location lies in front of or behind the axis of rotation in direction of travel, a conversion is required which takes into account an inclination of the machine frame in longitudinal direction relative to the direction of travel.


It is preferably provided that the transmitter or the receiver is arranged on a carriage which is movable, synchronously with the machine frame, in the direction of travel along the reference location on the ground surface.


In this arrangement, the transmitter or the receiver is arranged on a carriage preferably provided with rollers, which travels over the reference location.


In this arrangement, the receiver extends across a sufficient height in relation to the reference plane in order to be able to detect the position of the reference plane.


The transmitter or the receiver is arranged on a carriage which is attached to the machine frame in an articulated fashion via a coupling element telescoping laterally relative to the machine frame. For example, at least two articulations arranged at a distance to each other may be provided, the axes of which run parallel to the direction of travel or parallel to the axis of the milling drum.


The receiver may comprise several sensors arranged orthogonal to the ground surface at the reference location or to the machine frame, said sensors being able to measure the position of the reference plane. The sensors are arranged on a carriage, for example, in such a fashion that they extend orthogonal to the ground surface on which the carriage is travelling. Alternatively, sensors arranged at the machine frame extend orthogonal to a plane extending parallel to the machine frame. In this arrangement, the sensors are strung to one another, with the distance of the sensors determining the resolution of the measurement. The sensors are light-sensitive sensors, for example, which are able to detect a reference plane formed by light.


The receiver may also comprise several sensors extending orthogonal and parallel to the respective planes, said sensors measuring the position of the reference plane in terms of distance and slope.


It is thus possible, for example, by means of arranging several sensors in a plane extending parallel to the ground surface, to measure not only the distance but also the current slope of the reference plane relative to the current reference location. In so doing, it is not only possible to control the distance of the machine frame and thus of the working tool at the height of the working drum but to additionally also control the height adjustment devices in such a fashion that the machine frame extends parallel to the current reference location.


It is preferably provided that the transmitter emits measuring beams, in the form of coherent light, in a linear fashion, in a sector-shaped fashion or under an angle of up to 360 degrees, and that the reference plane is formed by said light which is detectable by the receiver.


A particularly preferred embodiment provides that a transmitter at the machine frame defines a reference plane which extends parallel to the machine frame, that a receiver extending in an essentially orthogonal direction to the ground surface at the reference location to above the reference plane is movable parallel to and synchronously with the machine frame, said receiver detecting the distance of the reference plane to the current reference location.


It is preferably provided that the receiver comprises a transparent housing which extends to above the reference plane, said housing containing the sensors, in a linear arrangement, orthogonal to the ground surface at the reference location.


It may be provided that several sensors are arranged in a plane extending parallel to the ground surface at the current reference location.


A preferred embodiment provides that the reference location of the ground surface is located along a road centerline.


The transmitter is preferably arranged on that side of the machine frame facing the reference location.


It may be provided that the distance of the supporting means of the carriage on the ground surface along the reference location is chosen so as to level out any irregularities of the reference location in the direction of travel. The carriage carrying the receiver is preferably provided with a large wheelbase of the carriage wheels in longitudinal direction, that is, in the direction of travel. Other supporting means may also be provided in lieu of or in addition to the carriage wheels, such as skids which are arranged at the sides of the carriage and which are significantly longer than the wheelbase of the carriage wheels. It is understood that the carriage may also comprise two carriage wheels per axle arranged next to one another.


Alternatively, the carriage may also be carried by the skids, or the carriage wheels may be arranged at the ends of the skids. In a further alternative, several carriage wheels are arranged, in the direction of travel, at the carriage or at the skids, for example, at a low distance to each other.


In a method for controlling the distance of the machine frame of a road construction machine moved on a ground surface to a reference location of the ground surface next to the road construction machine in accordance with control signals of a levelling device, where the distance of the machine frame to the ground surface is measured and the machine frame, when travelling over the ground surface, is maintained at an adjustable orthogonal distance to the reference location of the ground surface, it is provided that a reference plane extending parallel to the machine frame or to the ground surface at a reference location is represented by at least one measuring beam of a transmitter, where the reference plane is detected by a receiver running essentially orthogonal to the other plane extending parallel to the ground surface at a reference location or to the machine frame, thus measuring the distance of the axis of the milling drum to the ground surface at the reference location.


Specifically, a reference plane extending parallel to the machine frame can be defined, and a receiver extending in an essentially orthogonal direction to the ground surface at the reference location to above the reference plane can be moved, at a specifiable distance at the side of the machine frame, along the reference location on the ground surface, as well as parallel to and synchronously with the machine frame, said receiver detecting the distance of the current reference location of the ground surface to the reference plane.


In this arrangement, it is preferably provided that, when the road construction machine is started up, the current position of the reference plane is saved as default value, starting from which any deviations in the distance of the reference plane to the current reference location are measured.





In the following, embodiments of the invention are explained in more detail with reference to the drawings.


The following is shown:



FIG. 1 a road construction machine, in particular a road milling machine,



FIG. 2 a schematic top view of a working situation on a road surface,



FIG. 3 the receiver according to the invention on a carriage,



FIG. 4 an alternative embodiment with two receivers,



FIG. 5 a section along the line V-V in FIG. 3, and



FIG. 6 an additional alternative embodiment which shows the arrangement of skids.






FIG. 1 shows a road construction machine 1 using a road milling machine as an example. The road construction machine 1 comprises a machine frame 2 which is carried by a chassis 4 consisting of, for example, crawler track units, said chassis 4 being connected to the machine frame 2 via at least three height adjustment devices 8 designed as lifting columns. As can be seen from FIG. 2, the embodiment provides four lifting columns which can be used to move the machine frame 2 into a specified plane that extends preferably parallel to the ground surface 6 on which the crawler track units of the chassis 4 rest. With a horizontal ground surface 6, the machine frame 2 would normally be aligned horizontally.


The road milling machine shown in FIG. 1 comprises a working drum 22 between the crawler track units of the chassis 4.


In the case of a road milling machine, the working drum 22 is a milling drum. Other designs of a road construction machine may also feature the milling drum, for example, at the level of the rear crawler track units or wheels of the chassis 4. The transport devices for transporting the milled ground material may, in the same way, be arranged at the front end 7 or at the rear end of the road construction machine 1.


The road construction machine 1 comprises a levelling device 10 which receives a distance signal representative of the distance between the machine frame 2 and the ground surface 6, and which controls the height adjustment devices 8 in accordance with said distance signal in such a fashion that a specified distance of the machine frame 2 and thus also of the working drum 22 to the ground surface is maintained. To this effect, the levelling device 10 comprises an input and operating device on the operator's platform, as well as a transmitter 15 which emits a measuring beam 17 that is representative of a plane extending parallel to the plane of the machine frame 2. In this arrangement, the measuring beam 17 is directed towards a receiver 16 which scans the ground surface 6 along a reference location 12 in such a fashion that the distance of the reference plane 14, which extends parallel to the machine frame 2, to the reference location 12 can be detected by means of sensors 32 that are sensitive to the measuring beam 17.


The transmitter 15 may emit a single measuring beam 17, may emit several measuring beams 17 arranged next to one another and located in the reference plane 14, or may emit measuring beams 17 in a sector-shaped fashion in a single plane to up to an emission of up to 360 degrees. The transmitter 15 may be attached in any position on the machine frame 2 that allows a free line of sight to the receiver 16, and is therefore preferably attached to the machine frame 2 on that side of the road construction machine 1 facing the reference location 12.


The receiver 16 is preferably moved along the reference location 12 on a carriage 26, said carriage 26 being connected to the machine frame 2 in an articulated fashion via a coupling element 28 telescoping laterally at the side of the machine frame 2.


To this effect, at least two articulations are provided between the carriage 26 and the machine frame 2, the axes of which extend preferably parallel to the direction of travel 9 or parallel to the milling drum axis 23. In order to be able to also measure differences in slope, a ball-and-socket joint may be provided, for example, between the telescopic rod and the carriage 26, in which case it must then be ensured that the carriage follows the reference location 12.


The telescoping coupling element 28 is designed to enable a variable lateral distance of the carriage 26 to the machine frame 2. If the road construction machine 1 needs to be driven over the ground surface 6 in several cuts in case of wide roads, the telescoping feature enables the same reference location 12 to be selected for each cut.


As can be seen from FIG. 2, the reference location 12 may extend near the center of a carriageway width as this location shows the least damages, deformations or corrugations of the ground surface 6.



FIG. 2 shows an omnidirectional emission by the transmitter 15. Such an emission of the measuring beams 17 to define a reference plane 14 is of advantage, for example, in the event that several receivers 16 are provided, for instance, at the front and at the rear end of the road construction machine 1. Emission of the measuring beams 17 in a sector-like fashion would already be sufficient to enable a distance measurement to be performed even at different lateral distances of the reference location 12 to the machine frame 2.


In extreme cases, a single measuring beam 17 of, for example, a laser diode is sufficient if the measuring beam 17 can be directed towards the receiver 16.



FIG. 3 shows an embodiment of a receiver 16 which is arranged on a carriage 26 that is moved on carriage rollers 30 along the reference location 12 on the ground surface 6. The arrangement of the sensors 32 is depicted schematically and is, in the most simple case, a linear arrangement of the sensors 32 orthogonal to the reference location 12 of the ground surface 6. The reference plane 14 is indicated as a dashed line, with the sensor 32 receiving the measuring signal being depicted as a black dot. It is understood that the smaller the distance between the individual sensors 32, the better will be the resolution.


In the background, the working drum 22 is depicted schematically as a circle to indicate that a preferred position of the receiver 16 runs in the plane extending orthogonal to the ground surface 6 through the milling drum axis 23.


As has already been explained, two carriages 26 may also be provided at the front and at the rear end of the road construction machine 1. In this case, it is possible to also measure the longitudinal slope of the reference plane 14. To control the distance of the machine frame 2 at the height of the milling drum axis 23, the levelling device 10 must perform a conversion that results from the geometric data of the road construction machine 1.



FIG. 4 shows a second embodiment in which two receivers 16 are arranged at a distance to each other on a carriage 26. The reference plane 14 is depicted with a longitudinal slope which can be measured by means of the sensors 32 of the two receivers 16.



FIG. 5 shows a cross-section of the embodiment in FIG. 3, from which a possible arrangement of the sensors 32 in a ground-parallel arrangement is apparent. In the most simple embodiment, only one sensor 32 is located in a ground-parallel plane in the housing 38 of the receiver 16, said housing 38 consisting, for example, of acrylic glass. Alternatively, several sensors 32 may, however, be arranged in a single plane. FIG. 5 shows, for instance, eight sensors 32.


Provided that no slopes are to be measured with the arrangement of the sensors 32, only that sensor 32 in the plane which receives the strongest signal may be activated at any one time. Especially with larger dimensions of the housing 38, which is of circular shape only by way of example, the circular arrangement of the sensors 32 could, however, also be used to measure a slope of the reference plane 14 both as a longitudinal and as a cross slope of the machine frame 2 of the road construction machine 1.


A precondition in this arrangement is that the carriage 26 is maintained parallel to the machine frame 2 but is otherwise coupled to the machine frame 2 in an articulated fashion, and namely, in an articulated fashion about an axis extending parallel to the milling drum axis 23, and in an articulated fashion with regard to an axis extending orthogonal to the milling drum axis 23 and parallel in the direction of travel 9.



FIG. 6, finally, shows a further embodiment that is provided with two receivers 16 but may, of course, also comprise only one receiver 16. This embodiment provides a skid 40 on at least one side of the carriage 26, said skid 40 being of such a length that it enables improved levelling out of any longitudinal corrugations of the ground surface at the reference location 12.


In an additional embodiment not shown, the carriage wheels 30 may also be arranged at the ends of the skids 40.


The embodiments shown show the transmitter 15 arranged at the machine frame and the receiver 16 arranged on a movable carriage 26. It is understood that a reversed arrangement is also possible, namely, the transmitter 15 on the movable carriage 26, and the receiver at the machine frame. In this case, one or several measuring beams 17 would be emitted, at a specified height, from the carriage 26 towards the machine frame, with the sensors 32 of the receiver 16 being arranged, orthogonal to the plane extending parallel to the machine frame 2, in suitable positions at the sides of the construction machine 1.


When defining a reference plane 14 that is emitted in all directions or is at least emitted in the direction of the road construction machine 1, there is also the possibility to arrange two receiving devices at the front and at the rear end of the road construction machine 1, which can then be used, for example, to also detect the longitudinal slope of the road construction machine. If, in addition to the sensors 32 arranged orthogonal to the plane of the machine frame 2, the receiving device also comprises such sensors arranged parallel to the machine frame 2, then it is also possible to measure a cross slope of the machine frame 2 in relation to the reference location 12 of the ground surface 6.


It should be noted in this regard that the road construction machine 1 is mostly operated at a specified cross slope in order to ensure the drainage of water on a road surface to be newly built.

Claims
  • 1. A road construction machine, comprising: a machine frame having a frame plane and having a direction of travel;a plurality of ground engaging supports;a plurality of height adjustment devices connected between the ground engaging supports and the machine frame; anda levelling system configured to measure a distance from the frame plane to a reference location on the ground surface and to send control signals to the height adjustment devices to adjust the distance from the frame plane to the reference location on the ground surface, the levelling system including: a transmitter configured to emit at least one measuring beam representative of a reference plane;a receiver configured to detect a position of the at least one measuring beam representative of the reference plane;one of the transmitter and the receiver being rigidly connected to the machine frame; andthe other of the transmitter and the receiver being connected to the machine frame so that said other of the transmitter and receiver is movable parallel to and synchronously with the machine frame along the reference location on the ground surface and so that a current distance from the frame plane to the reference location is measurable from the detected position of the at least one measuring beam representative of the reference plane.
  • 2. The road construction machine of claim 1, wherein: the transmitter is rigidly connected to the machine frame and the reference plane extends parallel to the frame plane of the machine frame.
  • 3. The road construction machine of claim 1, wherein: the receiver is rigidly connected to the machine frame and the reference plane extends parallel to the ground surface at the reference location.
  • 4. The road construction machine of claim 1, wherein: the other of the transmitter and the receiver is movable at a specifiable distance from a side of the machine frame, on the ground surface.
  • 5. The road construction machine of claim 1, further comprising: a working drum mounted in the machine frame, the working drum having a rotating axis; andwherein the receiver is arranged in a plane extending orthogonal to the reference plane and through the rotating axis of the working drum.
  • 6. The road construction machine of claim 1, further comprising: a carriage supporting the other of the transmitter and the receiver, the carriage being movable synchronously with the machine frame in the direction of travel on the ground surface.
  • 7. The road construction machine of claim 6, further comprising: an articulated coupling element connecting the carriage to the machine frame, the coupling element being extendable laterally relative to the direction of travel of the machine frame.
  • 8. The road construction machine of claim 6, wherein: the carriage includes a ground engaging carriage support configured to level out any irregularities of the reference location in the direction of travel.
  • 9. The road construction machine of claim 1, wherein: the transmitter is rigidly connected to the machine frame; andthe receiver includes a plurality of sensors arranged orthogonal to the ground surface at the reference location, the sensors being configured to measure a distance from the reference plane to the ground surface at the reference location.
  • 10. The road construction machine of claim 1, wherein: the receiver is rigidly connected to the machine frame, and the receiver includes a plurality of sensors arranged orthogonal to the frame plane.
  • 11. The road construction machine of claim 1, wherein: the receiver includes a plurality of sensors configured to measure distance of the frame plane from the ground surface and slope of the frame plane relative to the ground surface.
  • 12. The road construction machine of claim 1, wherein: the at least one measuring beam emitted by the transmitter comprises a linear coherent light beam detectable by the receiver.
  • 13. The road construction machine of claim 1, wherein: the at least one measuring beam emitted by the transmitter comprises a sector shaped scan of a coherent light beam.
  • 14. The road construction machine of claim 13, wherein: the sector shaped scan comprises an angle of up to 360 degrees.
  • 15. The road construction machine of claim 1, wherein: the receiver comprises a transparent housing extending to above the reference plane.
  • 16. The road construction machine of claim 1, wherein: the transmitter is rigidly connected to the machine frame, and the at least one measuring beam comprises at least three measuring beams defining the reference plane substantially parallel to the frame plane of the machine frame; andthe receiver extends substantially orthogonal to the ground surface at the reference location, the receiver configured to detect a distance of the reference plane from the ground surface at the reference location.
  • 17. The road construction machine of claim 1, wherein: the reference location on the ground surface is located along a road centerline.
  • 18. A method of controlling a height of a machine frame of a road construction machine relative to a ground surface as the road construction machine moves over the ground surface, comprising: (a) transmitting with a transmitter at least one measuring beam to define a reference plane, the reference plane extending parallel to one of the machine frame and the ground surface at a reference location;(b) detecting the at least one measuring beam with a receiver extending substantially orthogonal to the other of the machine frame and the ground surface at the reference location, and thereby measuring the height of the machine frame relative to the reference location on the ground surface, one of the transmitter and receiver being rigidly connected to the machine frame; and(c) controlling the height of the machine frame relative to the reference location on the ground surface in response to the height measured in step (b).
  • 19. The method of claim 18, wherein: in step (a), the transmitter is rigidly connected to the machine frame and the reference plane is defined parallel to the machine frame;in step (b), the receiver extends substantially orthogonal to the ground surface at the reference location; andfurther comprising, as the road construction machine moves over the ground surface, moving the receiver at a selectable distance laterally from a side of the machine frame, as well as parallel to and synchronously with the machine frame.
  • 20. The method of claim 18, further comprising: when starting up the road construction machine, saving a current position of the reference plane as a default value from which default value any deviations in the distance of the reference plane to a current reference location on the ground surface are measured.
  • 21. A road construction machine, comprising: a machine frame having a direction of travel;a plurality of ground engaging supports;a plurality of height adjusters, each height adjuster connected between the machine frame and one of the ground engaging supports, the height adjusters configured to adjust a height of the machine frame relative to a ground surface;a ground engaging carriage located laterally to one side of the machine frame;a laterally adjustable support connecting the carriage to the machine frame such that a lateral position of the carriage relative to the machine frame is adjustable;a height detection system, including a transmitter component and a receiver component, one of the components being rigidly attached to the machine frame and the other of the components being mounted on the carriage;the transmitter component configured to emit at least one measuring beam representative of a reference plane and the receiver component configured to detect a position of the at least one measuring beam representative of the reference plane; anda levelling controller configured to receive from the receiver component a distance signal representative of a height of the machine frame relative to a reference location of the carriage on the ground surface, and to control the height adjusters in response to the distance signal.
  • 22. The road construction machine of claim 21, wherein: the transmitter component is rigidly connected to the machine frame and the reference plane extends substantially parallel to the machine frame.
  • 23. The road construction machine of claim 22, wherein: the receiver component includes a first receiver having a first plurality of sensors aligned substantially orthogonal to the ground surface at the reference location.
  • 24. The road construction machine of claim 23, wherein: the receiver component further includes a second receiver located forward of the first receiver relative to the direction of travel; andthe levelling controller is configured to receive distance signals from both receivers and to detect and control a longitudinal inclination of the machine frame.
  • 25. The road construction machine of claim 23, further comprising: a working drum mounted on the machine frame, and having a drum rotational axis; andwherein the first plurality of sensors is aligned substantially in a plane extending through the drum rotational axis.
  • 26. The road construction machine of claim 21, wherein: the transmitter component is mounted on the carriage and the reference plane extends substantially parallel to the ground surface at the reference location.
  • 27. The road construction machine of claim 26, wherein: the receiver component includes a first plurality of sensors aligned substantially orthogonal to the machine frame.
  • 28. The road construction machine of claim 21, wherein: the laterally adjustable support comprises an articulated linkage having at least two articulations.
  • 29. The road construction machine of claim 21, wherein: the transmitter component is configured to emit a coherent light beam in a sector-shape scan.
  • 30. The road construction machine of claim 21, wherein: the carriage comprises a skid elongated substantially parallel to the direction of travel.
Priority Claims (1)
Number Date Country Kind
10 2010 022 467.7 Jun 2010 DE national