DE4412147C2 - Procedure for checking the condition of a sewer - Google Patents

Description

The invention relates to a method for checking the state of a sewer pipe made of electrical insulation made up of socket pipes rendering or slightly electrically conductive material, in which by means of a measuring probe the sewer is scanned by the emission of an alternating voltage signal and the damage or leaks in the sewer through Differences in the resistance values between the high-resistance sewer pipe mate rial and the surrounding earth recorded and registered will.

A method of the type mentioned at the outset is known (DE 42 19 434 A1), in which Foreclosures of canal sections were not made, but during the Sewage operation only the sewer parts affected by the sewage Leaks are examined. This investigation does not give an overall picture about the existing damage pattern in the channel and does not capture the location of the Sewer pipes forming each other.

It is also known to sewer networks through sewer pipe TV subs check their condition (DE-OS 21 59 376). With this procedure  will cause damage from the inside of the sewer pipe recognized, but it can not be determined whether this damage only on one Part of the sewer pipe wall are limited or whether they fill the sewer pipe penetrate constantly.

The cracks or damage that extends across the entire thickness of the sewer pipe extend, allow, provided the groundwater level below the crack ver runs, an exfiltration of the wastewater into the groundwater so that it contaminates becomes. If the groundwater level is above the crack in the sewer pipe wall, so infiltration of the groundwater can enter the sewer pipe, which also is not desired.

The invention has for its object a method of the type mentioned to be designed so that by scanning the sewer by means of a measuring probe all relevant values for assessing the condition of the waste water nals are determined and the sewer is treated carefully.

This object is achieved in that after the introduction of the Measuring probe locked in the channel section to be checked until flooded to the apex line and the water pressure in the flooded channel section is kept low by the fact that it is generated by a water column from the bottom line of the channel section to a little above its apex line extends and with the measuring probe also the inclination of the individual pipes of the waste water channel to the horizontal is determined.

Due to the low water pressure in the sewer to be examined, the generally damaged sewer is only slightly loaded, so that the front existing damage and the socket connections are protected.

The determination of the inclination of the socket pipes to the horizontal and thus also the The position of the socket pipes in relation to one another allows conclusions to be drawn about the quality of the socket connection and the load on the seals provided in the sleeves, even if there is no leak at the time of the inspection.

It is advantageous to use a focused resistance measurement method in which the measuring electrode is arranged between two guard electrodes, which during the Have the same potential as the measuring electrode.

In the case of the focused resistance measurement method, which has a fine layer resolution offer, the spread of the measuring current is influenced. He will be on a narrow  Disc focused. Focusing takes place with the help of so-called guard or protection electrodes, which are arranged on both sides of the measuring electrode. This guard electrodes prevent the spherical spreading of the measuring current when they are are always at the same potential during the measurement at which the The actual measuring electrode lies, since current can only flow if it has a potential finds gradients.

The measuring probe is designed in such a way that it increases the resistance differences between the relatively high-resistance sewer pipe material and the surrounding one Surrendered soil, reacted.

An embodiment of the device for performing the invention Process is shown in the drawings and is described below.

Show it:

Fig. 1 is a in a sewer to be checked for leaks brought measuring probe, which is connected via a measuring cable and the associated deflecting and actuating means with a measuring apparatus arranged on the surface of the earth, and

Fig. 2 shows the measuring probe of Fig. 1 on an enlarged scale and partially cut.

The measuring system is composed of a measuring probe 1 , a measuring apparatus 2 , preferably arranged in a measuring carriage, a measuring winch 3 and a measuring cable 4 , which is guided via a drain bracket 5 , which is arranged above a vertical shaft 6 , to a deflection roller 7 and which in the height of the sewer to be tested 8 is rotatably mounted. The measuring cable 4 is connected to the measuring probe 1 via a cable head 9 and a flexible cable 10 .

The measuring probe 1 has a measuring electrode 11 in the center, on the end faces of which insulating disks 12 and 13 are provided. Adjacent to the insulating washer 12 , the measuring probe is equipped with an articulated joint 14 , which offers the possibility of kinking the front part of the measuring probe 1 relative to the rear part against the action of a prestressed spring 15 , so that the measuring probe 1 can be moved from the vertical in a simple manner Shaft in a sewer with a smaller diameter can be performed.

A guard electrode 16 is provided in the front part of the measuring probe and a guard electrode 17 in the rear part of the measuring probe.

Between the articulated joint 14 and the guard electrode 16 , the system of the inclinometer 19 is arranged in a chamber 18 of the measuring probe 1 , through which the inclination of the individual pipes of the sewer to the horizontal can be determined.

The chamber 18 contains the inclination sensors and the signal preamplifier, while the signal processing in the probe electronics 20 takes place which is arranged in the housing of the guard electrode 17 .

A B electrode 21 of the flexible cable 10 contains the connection for the cable head 9 . The measuring cable 4 , which establishes the connection to the measuring apparatus 2 , is therefore not connected directly to the measuring probe 1 , but to the flexible cable 10 . The B electrode 21 and the body of the measuring probe 1 must not be electrically connected directly to one another. Between the measuring probe and the B electrode, the measuring current flows and between the guard electrode 17 and the B electrode, the focusing current. The sources of the measuring current and the focusing current are galvanically separated from one another.

The length of the measuring electrode 11 and the insulating disks 12 and 13 and the manner in which the measuring and focusing current are fed largely determine the resolution of the measuring probe.

The different voltages and currents are generated in the probe electronics 20 and the measurement signals are processed, converted and transmitted to the measuring apparatus 2. Both guard electrodes 16 and 17 are electrically connected to one another.

The measuring probe 1 and the flexible cable 10 are screwed together. The electrical connection is carried out by a coaxial four-pole connector. The mechanical connection between the B electrode 21 and the measuring probe takes place via a normal, steel armored support cable 22 , which is surrounded by an insulating tube 23 . The steel reinforcement of the suspension cable is electrically insulated from the body of the measuring probe 1 .

An encoder cable 24 and a linen cable 25 are provided between the measuring winch 3 and the measuring apparatus 2 .

The supply voltage reaches the measuring probe 1 from the measuring apparatus 2 . In addition, the incoming measured values relating to the length of the channel section to be tested are displayed, stored in the measuring apparatus and output as a length-related endless diagram with the aid of a connected plotter or printer.

The measuring apparatus, the plotter / printer, the winch and u. U. are also the drain bracket normally permanently installed in a vehicle that also has the necessary accessories, e.g. B. the shut-off bladders and the pulley transported.

To carry out a measurement, the measuring vehicle is first brought into position and the deflection roller 7 installed in the vertical shaft 6 . Then you connect the probe 1 to the cable head 9 and attach a tow rope to the probe tip. For this purpose the probe tip is seen with a ring eyelet. The tow rope is now brought through the channel section to be measured, introduces the measuring probe into channel 8 and pulls it up to the starting point of the measuring section. The measuring winch is disengaged, so that the measuring cable 4 runs independently from the drum.

After the channel section to be checked is shut off, it is flooded, whereby the water pressure is kept low by passing it through a water column is generated, which extends from the bottom line of the channel section to a little upper extends half its apex. This will check the inside surface of the the channel section and also the socket connections with a very low Internal pressure loaded by the additional damage to the sewer pipes and Open connections can be prevented.

The measuring probe 1 is then retracted with the measuring apparatus 2 activated at a measuring speed of approximately 15 m / min. The measurement runs automatically and can be followed on a screen of the measuring apparatus.

With the measuring probe 1 shown and described, not only are the leaks in the sewer pipe walls determined and detected, but also the inclination of the individual pipes of the sewer to the horizontal is determined and held firmly.

Claims (1)

Method for checking the condition of a sewer consisting of socket pipes, consisting of electrically insulating or slightly electrically conductive material, in which the sewer is scanned by the emission of an alternating voltage signal by means of a measuring probe, and the damage and leaks in the sewer by differences in the resistance values between the high-resistance sewer pipe material and the surrounding soil are recorded and recorded, characterized in that after the measuring probe ( 1 ) has been introduced into the sewer section to be checked, the sewer section is blocked, flooded up to the apex line and the water pressure in the flooded sewer section is kept low in that it is generated by a water column that extends from the bottom line of the channel section to a little above its apex line and with the measuring probe ( 1 ) additionally the inclination of the individual pipes of the sewer than is determined to the horizontal.