DE19612800A1 - Leak location in empty non-metallic non-electrically conducting drain pipelines - Google Patents

Abstract

The method includes a nozzle (D) mounted on a movable carriage (Z). A signal cable (SIG) is led to the ground (FE), across the hose drum (ST) with the water supply (WZ) and the electrical recorder (EL). The liquid jet of a specified diagram (FL) contains an imposed freely selectable but maintained constant pressure, which is used at a defect point behind the outer wall in the ground region or in the electrolytic conducting invasion zone, designed in the filling or embankment bed. The rise of the electric current per unit time, is used for the indirect measurement of the amount of liquid leaving from the leak, injected depending on the pressure in the pore space. The liquid by the application of salt, contains a higher electrical conductivity.

Description

The invention serves the detection of damaged areas in non-metallic (Or also metalli covered from the inside and outside with insulating material pipe), the investigation under the condition the line is not filled.

The prerequisite is that the pipes are earthed or in gravel sand are embedded, with the possibility of electrical coupling development of a remote earth is given.

In particular, the invention is used to detect leaks for a long time laid sewer pipes, the location of the groundwater spike gels is largely insignificant relative to the pipes; it can be thus the negative consequences of leaks both for exfiltration and also open to infiltration through the examinations cash.

According to the invention, a liquid is in the form of a (salt) water jet (FL) from the inside of the tube via a nozzle (D) against the tube injected walls and at the same time as a carrier of an electric current mes used when the pipe wall is damaged by water radiate through the leaks over the soil or the gravel sand Filling to the distant end (FE) is running and in its strength in one surface electrical device (EL) is registered. With the existing The intensity of an illuminated leak increases depending on the current leak size and ambient permeability for water. Of the Power is supplied to the nozzle via a cable in the signal line (SIG), which expediently in the hose line (SCHL) for the salt water feeder is integrated. At the shaft, the hose is over an um swivel castor (UR) and with a hose reel (ST) extension capable or capable of being shortened. The water supply (WZ) on the drum is done via the hydraulic adapter (HA), the power is on removed from the drum via a sliding contact (SK).

This means the condition of the entire pipeline or of larger parts the same can be detected across the board, that on a sled with position-centralizing skids (Z) guided nozzle in two ways emotional. On the one hand, it becomes transverse to the pipe longitudinal direction around a pivot point rotated in the middle of the tube, creating a circular section of the tube into the Investigation is involved. On the other hand, the sled is lengthways in Channel direction slowly moved by pulling on the hose, so that through the Sum of the two movement components the inner wall of the pipe with spi raligen webs scanned completely through the points of impact of the beam can be.

The measurement of empty pipelines with a liquid jet is -  as far as known - only in the disclosures Dt. Patent office DE 42 38 738 A1 (claim 8) and DE 43 24 469 A1 described.

In the present invention, for the first time, the load is removed of the liquid jet with an additional electric current Pressure control and an electrical evaluation of the behind the leaks standing injection zone (IJ).

So far, is often used in over-grounded and older pipelines seeks to determine the risk of leakage via tightness measurements to recognize standardized pressures of water or air. This procedure is not DIN-compliant, however, except for newly installed pipelines secured and in the future for sensible reasons Way not standardizable. It also has many disadvantages, u. a. the lack of continuous and therefore economical measurements over longer pipe lengths, for example due to the dimensions of a posture of the numerous cross connections of house connection lines at all are not possible because packers are laboriously tight to seal must be installed on both sides and also that each one zeltest large periods of time for the work and for the Decommissioning of the entire system is required. For those here The proposed point sampling, on the other hand, is pressure standardization (for the water jet) for reasons not to be discussed here rather possible and sensible, and it can be done via the option of printing tax the normalization limit of the hypothesis between the states "tight" or "leaky". Transverse house connection lines hinder the measurement of one Posture no longer at all, overall the examination can be done quickly be carried out continuously from shaft to shaft.

The structure of the injection zones behind the leaks consists of a filling of the pore volume of the Überer that had been filled with air or fresh water until then dung or the bedding with the salt water of the against the Wall thrown beam. From the jet pressure and the jet through Knowing the nozzle movement can be the expected one Calculate the injection quantity. If there is a circular hole as a leak there is a hemisphere externally on the pipe, whose electrical exit resistance the current in the direction of Fernerde because of the salting of the What sers is so low that it compared to the other series resistances as null can be viewed, so this is a good way to offers a computational recording of the process. The belonging to it Electrical current can help to eliminate the unknown primary Initial conditions before irradiation over time its pulse shape or in 2 phases before and after a certain irradiation duration can be measured as a difference. Leave with both methods draw conclusions about the porosity and thus the leaked water draw a lot.

This results in the invention for which protection is sought from the pressure controlled leak size and permeability dependent generation  an invasion zone with regard to its electrical measurement to the Er identification of the amount of water leakage, the extent of which also applies to norma len operation of wastewater disposal and thus to the hazard sought potential for contamination ne groundwater is correlated.

A not insignificant addition and improvement of the process can be obtained from the fact that other parameters for Investigation of the state of conservation of the pipe walls for measurement solution can be used. For example, the up Impact noises of the liquid jet with microphones registered who with the help of another size in the form of the recognition of the geo Metrie of the damaged areas of the pipe wall can be obtained.

Claims (8)

1.Procedures and devices for locating leaks in non-metallic (waste water) pipelines laid in the ground in the non-liquid-filled state (not electrically conductive on the outer and inner walls), using a liquid jet thrown against the wall via a nozzle, which at the same time the use of an electrical power source and a remote end installed in the surrounding earth serves as a carrier of an electrical current flowing through the leaks, characterized in that the liquid jet of a given diameter receives a freely selectable but constant pressure and which is located at a defect location behind the Outer wall in the ground or in the bedding forming electrolytically conductive invasion zone over time over the increase in electric current for indirect measurement of the pressure-injected in the pore space emerging from the leak n amount of liquid is used. 2. Device according to 1., characterized in that the liquid through Salting receives a higher electrical conductivity. 3. Device according to 1., characterized in that the nozzle around the Pipe center and rotates transversely to the pipe longitudinal axis and also their rotation point depending on the speed and the jet diameter speed is pulled along the pipe, so that by the jet touches the entire inner surface of the pipe and is checked for leaks can be scanned. 4. The device according to 1., characterized in that to achieve a optimal measurability of the invasion zones and for an economically ver sluggish processing of a pipe system or a pipe network several Nozzles in a row arrangement along or across the channel axis or be used lengthways and crossways and that further the beam direction due to the nozzle orientation any inclination towards the sink can get right to the pipe wall. 5. The device according to 1., characterized in that the spray water to allow circulation to be resumed and for this purpose sensibly constructed collecting screens near the nozzle for the right on the wall inflected amounts of water and sensibly constructed suction devices in the Bottom area used for the downflows of water will. 6. Device as in 2. with rotating and longitudinally displaceable Wall-scanning arrangements, characterized in that except the current measurement due to the existence of microphones close to the Nozzles of water jet impingement to obtain informa ions can be measured via the geometric shape of the damaged areas. 7. The device according to 2., characterized in that the liquid beam except with an electric current due to the existence of a Sound generator is additionally loaded with acoustic energy, the other the wall caused reflection when running back on the liquid jet is picked up in the opposite direction by sound sensors and  Conclusions about the geometric condition of the leak points and de external environment. 8. Device as in 2. and 7., characterized in that instead the acoustic excitation and recording now donor and sensor for electromagnetic waves are used.