DE202013001597U1 - System for measuring the width of asphalt surfaces with temperature scanner - Google Patents

Abstract

Device (1) for calculating the width of hot asphalt, consisting of a temperature scanner, a distance sensor and an evaluation.

Description

Field of use:

The invention relates to a width measuring system for measuring the paving width of an asphalt layer by means of a temperature scanner.

State of the art:

When roads are rebuilt or repaired, several layers of hot asphalt are applied to the ballast base. This happens with so-called pavers. These mobile machines have reservoirs, conveyors and discharge and compression systems. The hot asphalt is distributed at temperatures of 100 to 150 degrees, brought to the road and compacted.

MOBA has developed a utility model in which a temperature scanner scans the hot asphalt layer line by line across the direction of travel and processes and stores the data to assess the quality.

The task of this utility model is to further develop the system in such a way that it is possible to calculate the installation width over the course of the temperature.

Solution:

The temperature scanner described in Utility Model 20.2009 016 129.3 serves as the basis of the measurement. He scans the hot asphalt layer transversely to the direction of travel and recognizes the lateral edges by lowering the temperature. The respective scan angles (left and right) at which the temperature drops by a certain value are recognized and stored as width.

Now the height of the sensor above the asphalt layer is determined in order to calculate the width of the material with the height and the angles. This is done either manually and subsequent input via keyboard or automatically via an additional distance measurement. Conveniently, this sensor can be integrated into the scanner, so that can also be done calculating the width in the sensor itself. Of course, it is also possible to use a separate distance sensor and to provide the system with the distance value via suitable interfaces.

1 schematically shows the structure of such a system.

The Infrarotmeßstrahl moves first from the center to the left to one side. After detecting the temperature drop at the edge from warm to cold, the system stores the measured angle α and swings back. The same is repeated on the opposite side, where the angle β is stored, so that the two critical angles (α + β) are determined and stored for each scan ( 2 ).

If the scanner is mounted perpendicular to the surface to be measured, then the total width of the hot asphalt layer results from the addition tan α = width left / h and tan β = width right / h.

For height measurement are preferably laser sensors according to the principle of light transit time measurement used, but it can also be used ultrasonic sensors or other sensors.

Claims (3)

Contraption ( 1 ) for calculating the width of hot asphalt, consisting of a temperature scanner, a distance sensor and an evaluation. Apparatus for measuring the temperature of asphalt surfaces, in which the sensor moves transversely to the direction of travel and thus scans the surface line by line. In conjunction with a height sensor results in a width measurement by detecting the lateral temperature drops. Device for width measurement, in which the additional distance sensor consists of a laser sensor according to the principle of light transit time measurement.

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