AT7513U1 - METHOD AND MEASURING INSTRUMENT FOR MEASURING TISSUE THICKNESS - Google Patents

Abstract

To measure coating thicknesses, a borehole (11) is made at the position to be measured with a drill, and the borehole (11) is cleaned by blowing it out. Into the borehole (11), an endoscope (2) is inserted under continuous visual inspection up to the lower edge of the covering layer to be measured. Furthermore, the position of the covering upper edge is transmitted to the endoscope lance (7) and the insertion depth between the lance tip (9) and the transferred position of the covering upper edge is determined.

Description

AT 007 51 3 U1

The present invention relates to a method for measuring coating thicknesses as well as a measuring instrument for measuring coating thicknesses. For the determination and evaluation of the wear of road surfaces, as well as for the determination of the lining thickness in the context of the quality control or in the course of preliminary surveys for the 5 Reprojectierung of roadways and bridge constructions it is necessary to measure the thickness of covering layers. For this purpose, it is customary to cut out a core from the road with a circular cylindrical drill bit. The diameter of the core is usually about 50 mm. The thickness of the individual covering layers or of the entire covering structure is determined by measuring the individual layers on the core. After the removal of the drill core or covering thickness measurement, the resulting drill hole is closed again with concrete or an asphalt mixture. A disadvantage of this covering thickness measurement is that a relatively large drill core has to be cut out of the roadway in order to determine the wear lining.

The present invention has for its object to provide a measuring method or a Vorrich-15 tion of the measurement of coating thicknesses, which keeps the damage of the coating as low as possible and beyond the service life of the tools used considerably.

This object is achieved according to the invention in a method of the type mentioned above in that at the position to be measured with a drill a hole is made, that the hole is cleaned by blowing that in the hole under continuous visual inspection 20 an endoscope to Lower edge of the covering layer to be measured is introduced, that the position of the covering top edge is transmitted to the endoscope lance and that the insertion depth between the lance tip and the transferred position of the covering surface is determined. Instead of the usual core hole and thus inevitably associated damage to the pad is in the present process, only a borehole with Klei-25 NEM diameter necessary, which can be made with a commercial stone drill.

The device according to the invention is characterized in that the measuring instrument is an endoscope, wherein a scale is applied to the endoscope lance and the lance tip defines the scale zero point. The scale thus begins at the lower end of the endoscope with 0 and 30 ends in the region of an eyepiece.

Furthermore, it is expedient if the insertion depth is determined by reading from the scale on the endoscope lance. The read scale value thus corresponds directly to the thickness of the covering.

Since the tapping of protective coverings of asphalt concrete or structural concrete should be prevented as far as possible, it is provided according to the invention that during drilling the drilling dust is examined for alkaline substances and when these substances appear drilling is stopped.

In order to detect an alkaline concrete content in the drilling dust, it is also appropriate that the drill dust is sprayed with a phenolphthalein solution for the detection of alkali.

If the usually colorless solution changes to crimson, that is a sign of al-40 kalische proportions in the drilling dust. This means that a cementitious substrate is already being drilled and drilling must be stopped immediately.

According to a preferred variant of the method according to the invention it is provided that the diameter of the borehole is between 8 and 20 mm, preferably about 12 mm.

Finally, it is envisaged that the borehole be closed again after the measurement with a cementitious mortar, a bituminous potting compound or an elastic sealant.

A further feature of the device provides that a displaceable sleeve is arranged on the endoscope lance and that the sleeve for fixing to the endoscope lance has a bore extending transversely to the longitudinal axis with a thread and a fixing screw. In this way, it is possible to fix the sleeve on the endoscope, which is aligned with the lower edge of the covering layer to be measured, in its position by tightening the fixing screw on the endoscope lance. The endoscope then only needs to be pulled out of the borehole and the reading on the side of the lance tip of the sleeve read from the scale.

The invention will be described in more detail with reference to a concrete embodiment. 55 The figure shows an inventive measuring instrument, with which just a measurement 2

Claims (6)

AT 007 51 3 U1 is carried out, wherein the roadway structure to be measured is shown in section. According to the FIGURE, a measuring instrument 1 comprises an endoscope 2, a light source 3 with a light guide 4 and a sleeve 5 with a fixing screw 6. A scale 8 is applied to an endoscope lance 7. The scale 8 begins at the lower end of the endoscope lance 7 with the scale zero point and 5 ends in the range of an eyepiece 10. The endoscope lance 7 has a diameter of about 6-10 mm and a length of about 350-600 mm. The sleeve 5 is slidably mounted on the endoscope lance 7 and can be attached to this with the help of the fixing screw 6. As a rule, the construction of a road consists of several layers. The lowest layer is the so-called support layer 21 made of concrete. Their thickness depends on the respective static requirements. The backing layer 21 is provided with two bituminous sheets 22 ', 22 " sealed, which together have a thickness of 10 to 15 mm. Above is a 3 to 5 cm thick protective coating 23 made of asphalt concrete with a grain size of about 5 mm. Above the protective covering 23, a support layer 24 with a thickness of 8 cm and a layer of wear lining 25 with a layer thickness of about 5 cm follow. The trafficable roadway surface 26 is formed by the surface of the Ver-15 schleißbelags 25. To measure the road surface covering thickness of the wear lining 25, a borehole 11 is produced with a percussion drill (hammer drill) and a masonry drill with a diameter of preferably 12 mm from the roadway surface 26 up to approximately the protective lining 23. Whenever again about 3 cm deeper drilled again, the drill is pulled out of the borehole 20 11, the endoscope 2 is inserted into the borehole 11 and the wall is changed to a Schich tenwechsel. a change in the grain size examined. The light source 3 is adjustable in their luminous intensity, so that the light intensity required for the endoscope 2 can always be adjusted. If no shift change can be determined, drilling will continue or deeper. In order to prevent the protective coating 23 or the base layer 21 from being drilled, the drilling dust is tested for alkalis during drilling for the detection of the concrete particle. For this, the drilling dust is sprayed with a solution of phenolphthalein. The usually colorless indicator solution turns to crimson when alkaline fractions are contained in the drilling dust. If this is the case, drilling stops immediately. Before the actual determination of the lining thickness, it is necessary to clean the borehole 11 by means of compressed air. The most thorough cleaning of the borehole 11 is achieved by blowing out with a compressor with a compressed air gun. In the cleaned wellbore 11, the endoscope lance 7 of the endoscope 2 is inserted. The endoscope lance 7 is lowered under continuous visual inspection through the eyepiece 10 so far into the wellbore 11 until the lower edge of the lining layer to be measured, namely the wear pad 25 is reached. The sleeve 5 is now moved along the endoscope lance 7 to the road surface 26 and fastened there by tightening the fixing screw 6. Thereafter, the endoscope 2 is pulled out of the borehole 11 and the measured value on the lance tip 9 facing side of the sleeve 5 on the scale 8 read. If the situation of the measuring point, the lowering of the sleeve 5 to the surface of the unknown layer 40 is not possible, the endoscope 2 can be fixed in the well 11 with a wedge and the reading directly from the scale 8 are read. After completion of the measurement, the wellbore 11 is closed with a cementitious grout, a bituminous potting compound or an elastic sealant. The measurement method described here can be used to determine the thickness of all types of coverings 45 on squares, roads, bridges and in buildings. CLAIMS: 1. A method for measuring coating thicknesses, wherein a drill hole is made at the position to be measured with a drill, wherein the wellbore is further cleaned by blowing, further into the borehole under continuous visual inspection, an endoscope to the lower edge of the lining layer to be measured is introduced, wherein further the position of the top surface of the cover is transmitted to the endoscope lance and the Einschubtie-55 fe between the lance tip and the transmitted position of the top surface 3 00 AT 007 51 3 U1 is determined, wherein further determining the insertion depth by reading from the scale takes place on the endoscope lance and wherein finally the diameter of the borehole is preferably between 8 and 20 mm, characterized in that during drilling the drilling dust is examined for alkaline substances and drilling of these substances is terminated. 2. The method according to claim 1, characterized in that the drill dust is sprayed to the alkaline detection with a phenolphthalein solution. 10 3. The method according to any one of claims 1 or 2, characterized in that the well is closed after the measurement again with a cementitious grout, a bituminous potting compound or an elastic sealant. 4. Measuring instrument for measuring coating thicknesses, characterized in that the measuring instrument is an endoscope (2), wherein at the endoscope lance (7) a scale (8) is applied and the lance tip (9) defines the zero scale. 15 5. Measuring instrument according to claim 4, characterized in that at the endoscope lance (7) a displaceable sleeve (5) is arranged. 6. Measuring instrument according to claim 5, characterized in that the sleeve (5) for fixing to the endoscope lance (7) has a transverse to the longitudinal axis bore with a thread and a fixing screw (6). 20 HIEZU 1 SHEET DRAWINGS 25 30 35 40 45 50 4 55