DE19719478A1 - Method for detecting resistance increases in terminals in plug and socket assemblies - Google Patents

Abstract

The method involves measuring and storing the installation internal resistance by using a measurement device within the specific current circuit. Sporadic changes in resistance identify a faulty condition. Changes in resistance are localized acoustically by a magnetic field sensor from the crackle emitted by the measurement pulse. If the change in resistance is unexpectedly high in a further step, the current loading of the test circuit is increased and the possible source of the fault identified using an infrared thermometer. In addition a sum total of the internal resistances of all the accessible sockets is generated. This provides information of the increases in resistance over and above the conductor resistances and also provides the material for subsequent comparison with repeated tests.

Description

The invention relates to a measuring method together with measuring device for the determination of fire risk increasing resistance at terminal points electrical systems (stationary electrical installations).

There is an enormous fire risk potential within electrical systems due to increased resistance at poor clamping points. In particular, to increase the risk:

• - Age of the electrical system
• - Current load of parts of the system at risk
• - the proximity of flammable materials is too dangerous the terminal points.

Very often in the private sector, where no regular tests are prescribed, wooden ceiling paneling just above Junction boxes attached. In the commercial area however, regular examinations by the Electrical system prescribed, their compliance is monitored by the professional associations.

State of the art is that the clamping points only through direct visual inspection and "testing on tight fit ". This is extreme complex and - in practice - in many cases hardly feasible.

Therefore the tests of the electri systems on this point essentially an optical check, as well as a check the residual current device on sockets.

The invention has set itself the task of fire hazardous (bad) clamping points in within electrical systems from any socket to locate without interfering with the electrical system installation.

An essential part of the measuring process is the measuring device.

It measures the internal resistance of the test current circuit with an extremely high Measurement resolution and accuracy in milliohms rich, with sporadic resistance at the same time  Changes during the pulse-like measurement phase identified as an error and displayed will.

Conventional measuring devices, the inside of the network usually do not have resistance the required measurement resolution and measurement accuracy activity. Your task is according to DIN VDE 0100 the maximum over the network internal resistance to calculate possible short-circuit current and thus in connection with the characteristics of the overcurrent Protective devices whose switch-off times are too average.

An error analysis regarding sporadic Changes in resistance are entirely absent. In the Re gel can be assumed that the contr level increases at poor clamping points under pulse-like current load on sporadic changes point. It is rarer that a load-independent current increase in resistance manifests itself.

Are sporadic changes from the measuring device recognized, the tester can use the circuit examine a magnetic field sensor more closely. Here the measuring pulses of the measuring device are audible ge makes. They are in the entire active circuit can be tracked with the magnetic field sensor accompanied by scratching noises as soon as the Stop with sporadic changes in resistance is keyed.

Thus, the location of this bad clamp can be Determine the exact location from the outside.

Since not the entire internal resistance of one single outlet, but the resistance values between the measuring points are of interest, all measured values are saved.

First the overall picture of all measuring points with their local naming together with the lei length, an error statement regarding per Manent, load-independent increases in resistance at bad clamping points.

Should unexpectedly high increases in resistance can occur without sporadic fluctuations concerned circuit with a longer duration be loaded. After one at the earliest Minute loading time are now the clamping points with an infrared thermometer (with a small opening solution).  

Leave areas of major temperature increases localize yourself perfectly.

Additional information on the respective measurement positions are audible (voice recording) saves and if necessary in the measurement report added.

The storage of the measurement data allows later Repeat tests make a comparison with the new measurement data and thus covers any deterioration resistance values.

In practice, the exams are great perform quickly, taking in a meaningful Sequence of all accessible sockets checked will. If necessary, cable lengths can be used as well as location and status information of the respective Socket into a dictation machine:

The measuring device is connected to the plug to be tested can connected. It will be the bug first current protection device checked and the fault case reported and saved (this test step is standard and has no patent itself on).

Then the internal grid resistance is determined and in conjunction with a continuous Measuring point number displayed.

If there is no error message regarding spo Radical changes in resistance take place and at Repeat tests of the measured value in estimation the previous measurement and the cable lengths ak The test on this plug is to be acceptable can ended with it.

Should sporadic resistance changes acc are initially moved back and forth the plug in the respective socket checks whether this terminal point is the cause of the error is. (Especially sockets with high current often have oxidized contacts).

Otherwise, the magnetic field sensor (itself not part of the patent application) sentence, with which the measuring pulses of the measuring device as hear knocking noises in the active line network can be made cash. especially the  next terminal point in the junction box should to be "obeyed" exactly. Find in the clamp place sporadic changes in resistance or even Sparking instead, this is as a scratchy Recognizing sound.

Should the measurement and estimation on site or unexpected due to later evaluation of the measurement data have high constant increases in resistance, must have the exact cable routing and cable length can be determined with the magnetic field sensor.

If the measured value is still too high, the Test center (socket) with at least 2 kW duration charged.

After about a minute they will affect you the terminal points with an infrared thermometer scanned with small resolution. A permanent one Increasing the resistance of the terminal point leads very much quickly to a measurable increase in temperature compared to other wall areas, with which the Feh source has been located.

To CEE plug in the manner described the three will be able to test devices Phases (L1, L2, L3) one after the other using a Switching adapter checked and saved.

The invention enables for the first time with little Effort to check the electrical system visually dangerous terminal points.

The creation of a measurement is of great advantage protocol, the later repetition tests every deterioration of individual clamps places shows.

Thus, the invention can be in all ge commercial and private electrical systems put.

Claims (2)

1. Measuring procedure to determine fire hazards Increases in resistance at clamping points within electrical systems, the measuring device in respective test circuit internal grid resistance takes measurements and saves, at the same time early error detection of sporadic resistance changes caused by a magnetic field sors as scratching noises of the measuring pulses be localized and, should the Netzin resistance unexpectedly high, in a white tere process step, with high permanent load of the test circuit, the possible source of error determined by means of an infrared thermometer and additionally an overall picture of the internal resistance de of all accessible sockets generated, which Information about deviates from the cable length Appropriate increases in resistance, as well as later ver same with repeat exams. 2. Measuring device according to claim 1, the one high-resolution and high-precision network level measurement with simultaneous error analysis regarding sporadic changes in resistance during the pulse-like measurement phase leads, as well as the storage of the measurement data for the purpose later computer evaluation.