The present invention relates to a road paver having at least one measuring device that is configured to register a surface.
A road paver as it is known in practice essentially comprises a towing machine that is movable on a plane along a work area, as well as a screed that is provided for laying the road pavement. The screed is normally mounted, in such a way that it can pivot, on the towing machine by means of a tow arm that is rigidly connected to the screed.
The height of the tow arm can be controlled by the operator in order to raise the screed to a desired level relative to the road pavement. In this way it is possible to adjust, depending on the condition of the surface of the subgrade, the screed position in such a way that unevennesses in the subgrade across which the road paver drives are balanced out. This results in the creation of a level road pavement layer. Today automatic measuring systems are also used that register a distance to a reference in order to create, in reaction to the same, as promptly as possible a levelling signal which is used to determine the position of the screed.
Used for such measuring systems are, for example, mechanical sensors that are mounted on the movable screed in such a way that they come into contact with the surface of the plane in front of the newly laid road pavement in order to register unevennesses upon it in good time. Disadvantageous in this is, however, that a mechanical sensor can register unevennesses on a hard subgrade only, because such a sensor does not respond to unevennesses on a soft, for example, sandy, subgrade. Furthermore, it is possible for the mechanical sensor that is slid across the plane to bang into an object that is lying around and consequently the sensor becomes damaged. The mechanical sensors must likewise be maintained periodically and they are sensitive to dirt and moisture.
As an alternative to the mechanical, contacting measuring devices, in practice contactless measuring systems are also used in order to register a distance to the plane. Such measuring systems comprise, for example, an optical or acoustic sensor system.
According to a further technique in road construction, a reference wire is used along the paving section as a reference for the distance measurement. The distance between the measuring head and the reference wire is thereby registered in order to make it possible to infer unevennesses on the road surface and correspondingly carry out a levelling of the screed. The attachment of a reference wire along the paving section is, however, extremely laborious and requires a great deal of time. Furthermore, it is possible that the reference wire, which is normally a normal rope, sags so much across a section due to absorbed moisture that falsified distance values are registered for the levelling.
To level the screed, in practice rotating lasers are also used which are positioned as an external reference in such a way that a laser rotation field that they span can be received by a receiver arranged on the road paver in the case of an appropriate height adjustment of the screed. The height of the screed is then adjusted if the receiver on the road paver no longer receives the rotational laser field of the rotating laser. Disadvantageous in this is, however, that the rotating laser must be repositioned along the paving section repeatedly, with additional operating personnel being required for this purpose.
In the case of the previously described systems for distance measurement, the registration of unevennesses on the plane is possible to only a limited degree. The present invention therefore is based on the object of improving a road paver with simple, constructive technical means to the effect that it makes it possible to lay an improved road pavement layer.
This object is achieved with the road paving device of the present invention.
The invention relates to a road paver having a towing machine that is movable on a plane along a work area, and having a screed that is provided for laying a road pavement. The road paver according to the invention furthermore comprises a measuring device that is configured in such a way that it registers a surface and generates a virtual point cloud that represents the surface. The registered surface can be depicted using the point cloud, whereby the point cloud extends in three spatial dimensions relative to the measuring device in order to depict a spatial depiction of the surface. The point cloud thereby comprises a plurality of points, each of which is defined by 3D coordinates. For spatial depiction of the surface, it is provided that at least one pair of points of the point cloud is aligned in a first direction, preferably in the direction of travel, and at least one other pair of points of the point cloud lies at an angle to the first direction, preferably to the direction of travel.
By means of the registration of the surface condition in the form of a point cloud, it is possible to collect valuable information that can be used to generate different operating settings. The invention offers the essential technical advantage that unevennesses, for example, transverse and longitudinal inclinations in the road profile, can be registered meaningfully and precisely. As a result, the setting of different operating parameters, such as the levelling signal, for example, can be improved in reaction to the subgrade on which the paver moves.
The invention is likewise impervious to poor weather and offers an economical, low-maintenance alternative to devices of this kind known until now. In addition, the measuring device is simple to operate and can be mounted on the road paver without a large effort. Furthermore, the invention makes it possible to dispense with additional measuring equipment that is formed to register transverse inclinations in the course of the road.
In an advantageous embodiment of the invention, the point cloud defines a surface condition of an area of the plane and/or of the road pavement. The measurement of the area can thereby extend across a varying length and a varying width, so that the registered surface section has different sizes. It is also possible to adjust the measurement of the area to a surface condition of the plane that is to be expected, so that it is possible, for example, in the case of uneven paving areas, to select the measurement of the area for determining the surface condition ahead of time in such a way that as a result it is possible to depict a sufficiently large point cloud. On the other hand, it can be expedient, especially in the case of a curving paving run, to select a smaller measurement of the area for determining the surface condition.
In a further embodiment of the invention, the measuring device comprises a filter unit that is configured to filter out extreme 3D coordinates from the point cloud. In this way, it is possible to disregard the registration of undesired objects. This can be advantageous particularly when the generated point cloud registers sections of the towing machine or of the screed. It is likewise in this way possible to filter out components that project into the point cloud. Finally, it is possible that operating personnel who are in the registration range of the point cloud can be filtered out of the measurement result.
For an especially reliable registration of the point cloud, the measuring device comprises a 3D scanner. This preferably comprises at least one optical sensor that is provided to register a distance to the registered surface. In an improved embodiment of the invention, the 3D scanner is a laser scanner with at least one laser sensor. The laser scanner is suitable for use even in poor weather and ensures precise registration of the point cloud.
The 3D scanner preferably comprises at least one movable mirror in order to deflect the light beam of the at least one optical sensor. It is thereby conceivable that the movable mirror can be controlled by a predetermined movement sequence so that the deflected light beam, preferably a laser beam, runs across the predetermined area that represents the point cloud. For faster registration of the point cloud, a plurality of movable mirrors can be provided in order to deflect different laser beams in such a way that the point cloud can be depicted.
The area of the point cloud can preferably be defined with at least 300 laser scan points. Due to this number of laser scan points, it is possible to generate a meaningful surface image, meaning the point cloud, in order to detect unevennesses on the registered surface.
As an alternative to the 3D scanner by means of movable mirrors, it is provided to equip the measuring device with a plurality of laser sensors which are arranged in a matrix, meaning in a sensor support, in such a way that they emit laser beams across the predetermined area for generating the point cloud. It can likewise be advantageous if the measuring device is arranged movably, so that it conducts the laser beams across the area for generating the point cloud by means of a predetermined movement sequence. The movement of the measuring device can thereby ensure that the laser beams of the laser sensors hit the surface to be registered linearly in a sequence, aligned in parallel, or that the measuring device is movable in such a way that the laser beams register the area from the outside inwards or from the inside outwards.
In a further embodiment of the invention, the road paver comprises a controller that is connected to the measuring device. The controller is preferably configured to convert the point cloud registered by the measuring device into a corresponding signal in order with it to control a certain operating function of the road paver. The controller is, however, preferably configured to convert the point cloud registered by the measuring device into at least one levelling signal. The levelling signal can be used to actuate the levelling cylinders of the road paver in order that consequently a movement of the screed can be carried out. The unevennesses spatially registered by the point cloud therefore influence the generation of the levelling signal in order to move the screed. As a result, it is possible to lay a flat road pavement particularly on uneven roads.
In a further embodiment of the invention the measuring device comprises a holding element with which the measuring device can be mounted on the road paver. In order for registration to be possible by means of differently sized point clouds, the holding element can be formed in such a way that it can be adjusted in the height, for example, in such a way that it is telescopically extendible, in order to arrange the measuring device at different heights. An especially useful measurement for the area of a point cloud can be generated by means of arranging the measuring device at a distance of up to ten metres above the plane.
In an especially advantageous execution, the measuring device is configured to regulate the point cloud as well as the parameter setting that results from it by means of real-time registration. If the parameter setting here involves the generation of a levelling signal, this can react to unevennesses in the subgrade without a time delay.
It is furthermore possible that in an embodiment of the invention at least one measuring device is provided on the left and/or right of the road paver, seen in the direction of travel. In this way, it is possible to generate a plurality of point clouds by means of which the surface condition of the plane or of the road pavement can be depicted.
It is advantageous, however, if the measuring device is configured such that it generates the point cloud for an area to the left and/or right alongside the work area. For example, it is advantageous if it is possible to register the point cloud in the work area within a short distance of the screed.
It is also possible that, using one or more registered point clouds, an average value can be generated by the controller in order to generate a signal for further operating functions of the road paver using the generated average value. This offers the technical advantage that a plurality of surface sections are taken into account when preparing an operating parameter.
The measuring device can also be configured in such a way that it generates the point cloud for an area that partially overlaps a section of the work area. It thereby does not matter whether the point cloud overlaps an area of the screed, an area of the towing machine or other technical means present on the road paver. As a result, the measuring device can be used especially flexibly on the road paver.
The measuring device is preferably arranged on the movable screed, however, particularly on the tow arm that supports the screed. On the other hand, the measuring device can, however, also be arranged on the towing machine of the road paver.
In order to register unevennesses on an especially large area, the measuring device can be configured in such a way that it generates the point cloud across an area that surrounds the road paver. Because it is possible to mask out extreme 3D coordinates, meaning in this case the towing machine and the screed, it is possible to depict a meaningful result by means of the surface sections of the point cloud that are to the left or right of or in front of or behind the road paver, whereby this result represents the surface condition of the work area.
According to an advantageous embodiment of the invention, the measuring device is formed to register the 3D coordinates of the surface by means of a pulse duration, phase difference in comparison to a reference or by means of triangulation of optical beams. In this way, a precise distance measurement between the measuring device and the surface is made possible.
Embodiments according to the invention are described on the basis of the drawings. Shown are:
This can be achieved by means of appropriate levelling of the screed 5, as is described in the following.
A measuring device 8 is mounted on the tow arm 6 of the road paver 1. The measuring device 8 is configured to register a three-dimensional surface section 9 (see
Unevennesses on the plane 4 can, for example, comprise longitudinal or transverse inclinations of the subgrade on which the road paver 1 moves. Likewise, potholes or long-shaped ground subsidences or ground upheavals can be registered.
The measuring device 8 is configured to generate a virtual, net-like point cloud 12, which is shown in
Number | Date | Country | Kind |
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11006864.0 | Aug 2011 | EP | regional |