DE3011500C2 - Device for leak monitoring and for locating a leak in the watertight outer skin of a building - Google Patents

Description

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The invention relates to a device for leak monitoring and for finding a leak in the waterproof outer skin of a building.

A structurally sound structure of a flat roof covering of a load-bearing roof ceiling consists in the Order of listing from the inside to the outside from a primer, a leveling layer, a Vapor barrier, a thermal insulation layer, a vapor pressure equalization layer, a waterproof outer skin and, if necessary, a fill of gravel. In this roof structure, the outer skin in particular is light vulnerable. Such injuries often go unnoticed. by mechanical damage, for example when walking on the roof by forcing sharp objects into the Outer skin

By DE-AS11 45 337 it is to find a Leak in the waterproof skin of a building has become known, between the waterproof skin and to incorporate a flat metal insert, for example an aluminum foil, into the structural surface that supports this structure. After the skin is finished, the metal insert takes on the function of a counter electrode for a point or line shaped search electrode with which any imperfections in this can be determined by scanning the waterproof skin, since the imperfections Cause spark breakdowns. However, this scanning is relatively complex.

The invention is therefore based on the task of monitoring leaks in the outer skin of buildings To create a facility with which, without much effort, regularly or sporadically, the tightness of this Outer skin can be checked

According to the invention this object is achieved in that within the waterproof outer skin a the entire building area to be monitored extending measuring line is laid in loops that the Test lead made up of a waterproof, electrically insulated test lead and two with a moisture-sensitive one Indicator wires provided with electrical insulation exist between those in the event of moisture penetration through the outer skin at the moistened point a low-resistance connection is created that the Volume resistance of the insulation of the indicator wires constantly or at certain times by means of a The measuring bridge can be monitored and that, in the event of moisture penetration, the position of the moistened Place can be determined by means of a measuring device lying in the bridge diagonal of the measuring bridge

According to an advantageous embodiment of the invention it is provided that the beginning and end of the measuring line close together. In addition, the measuring line can be arranged on its inside with a Vapor barrier provided thermal insulation layer within the outer skin between the thermal insulation layer and the vapor barrier. All wires of the measuring line can consist of the same material and the have the same cross-section.

Another development of the invention consists in that the measuring line is permeable to moisture Protective jacket is encased, which is resistant up to a temperature of 573 K.

The device according to the invention is very advantageous because with it it is possible to check the outer skin of the building to be monitored without to burden this yourself, on the other hand the monitoring is so quick and easy that it is with can be repeated at short intervals at an economically justifiable cost. Another advantage the device according to the invention lies in the fact that it also uncovered small leaks with great certainty An exemplary embodiment of the invention is explained in more detail with the aid of a drawing

F i g. 1 shows the position of three wires of a measuring line laid in loops according to the invention.

F i g. 2 shows a measuring circuit for checking the measuring line.

F i g. 3 shows the layered structure of a flat roof.

4 shows the arrangement of the loops of the measuring line on a flat roof.

In one serving as a measuring conduit 4 cables are a Meßader M and two indicator wires / 1 and 12. In summary, the Meßader M is provided with a

waterproof, colored insulation. In contrast, the indicator wires / 1 and / 2 are wound with strip of Isolierwerkstoffes, the very good, however, isolated in the dry state, in thoroughly moistened state virtually no resistance has the colors of these Isolierumspinnung differ from the color of the insulation of the Meßader M, and are preferably also with each other not equal.

This measuring line 4 is laid in loops on a flat roof, the end of the line 4 is fed back to the immediate vicinity of the beginning of line 4. At the ends of the measuring conduit 4 as well as in the loops for each of the wires M, Ii and / 2 terminals 9 are provided, which allow a simple and quickly releasable connection of a measuring bridge.

If moisture, for example rainwater, penetrates the flat roof at any point, the Isolation of the indicator wires / 1 and / 2 soaked at this point. This is at this point between the two indicator wires / 1 and / 2 created a low-resistance connection ^.

F i g. 2 shows a measuring bridge, via which the distance of such a low-resistance connection S on the one hand from the beginning and on the other hand also from the end of the measuring line 4 with the aid of the measuring wire M is determined. In the form shown, the measuring bridge is made up of fixed resistors 11 and 12 and an adjustable resistor 15, the bridge diagonal being formed by the series connection of a switch 13 and a measuring device 14. During the measurement, the ends of the measuring wire M and the indicator wire / 1 are connected to one another via a bridge 16. The distance of the low-resistance connection S from the beginning or from the end dc-r measuring line 4 is calculated after determining the size of the adjustable resistor 15 and reading the measuring device 14 or using tables

ίο determined

F i g. 3 shows the typical structure of a flat roof. In order to ensure a technically perfect function on a raw ceiling R, a primer 1, a leveling layer 2, a vapor barrier 3, the loops of a measuring line 4, a thermal insulation layer 5, a vapor pressure equalization layer 6, a roof seal 1 forming the outer skin 7 of the building and a layer of gravel 8 above it upset

In Figure 4 is the plan of a flat roof shown that is composed of fields indicated by dash-dotted lines the laying of a measuring line 4 is specified in loops, the dimensions of which are based on the Orientate the dimensions of the fields of the roof. There are terminals 9 for connecting a measuring bridge or a simple bridge 16 with special consideration of the later accessibility except on The beginning and the end of the measuring line 4 are also provided at suitable intermediate points.

For this purpose 3 sheets of drawings

Claims (7)

Patent claims: 1. Device for leak monitoring and for finding a leak in the watertight outer skin of a building, characterized in that within the watertight outer skin (7) a measuring line (4) extending over the entire building area to be monitored is laid in loops that the measuring line (4) consists of a waterproof, electrically insulated measuring device (M) and two indicator wires (I 1) / 1 provided with moisture-sensitive electrical insulation, between which, when moisture penetrates through the outer skin (7), at the moistened point A low-resistance connection (S) is created so that the volume resistance of the insulation of the indicator wires (H, / 2) can be monitored continuously or at certain times by means of a measuring bridge and that, in the event of moisture penetration, the position of the moistened point by means of a measuring device located in the bridge diagonal of the measuring bridge (14) can be determined 2. Device according to claim 1, characterized in that that the beginning and end of the measuring line (4) are close to one another. 3. Device according to claim 1 or 2, characterized in that the measuring line (4) when arranged a thermal insulation layer (5) inside which is provided with a vapor barrier (3) on its inside the outer skin (7) lies between the thermal insulation layer (S) and the vapor barrier (3) 4. Device according to one of claims 1 to 3, characterized in that all wires (M, Ii, 12) of the measuring line (4) are made of the same material and have the same cross section. 5. Device according to one of claims 1 to 4, characterized in that the insulation of the wires (M, / 1, 12) of the measuring line (4) have different colors. 6. Device according to one of claims 1 to 5, characterized in that the wires (M, / 1, 12) of the measuring line (4) are stranded together. 7. Device according to one of claims 1 to 6, characterized in that the measuring line (4) of is encased in a moisture-permeable protective jacket up to a temperature of 573 K. is constant