DE102004052965A1 - Measuring device, e.g. for remote operating system, has reference electrode in proximate area of protection object, and switching device to break and close connection between electrode and measuring instrument in controllable manner - Google Patents

Abstract

Measuring device has a reference electrode (3) in a proximate area of a protection object (1). The protection object and the reference electrode are connected with an input of a measuring instrument (5) of a remote operating system by an electrical connection. A switching device (7) breaks and closes the connection between the reference electrode and the measuring instrument in a controllable manner.

Description

The The invention relates to a measuring device for a telecontrol system for cathodic Corrosion protection with monitoring the protection potential between one at least partially in the soil or arranged in the water metal protective object on the one hand and a reference electrode arranged in its immediate area on the other hand.

to Ensuring the function of devices for cathodic corrosion protection of at least partially arranged in the ground or in the water metal objects, such as As pipelines or tanks, it is necessary, the protection potential between the metal object (object of protection) on the one hand and the immediate area of the soil surrounding the protected object within to hold certain boundaries. Under protection potential is hereby the electrical voltage between the object to be protected on the one hand, and one arranged in its immediate vicinity in the ground Reference electrode, on the other hand, understood. In practice, this will be For example, copper / copper sulfate electrodes used.

at known measuring methods are both the protected object and the Reference electrode with one input of a corresponding meter electrically connected, so that the parameters to be measured constantly at the analog inputs of the measuring device issue.

adversely Here is that everyone Current flow through the reference electrode leads to an aging of the same. There This aging of the reference electrodes is unavoidable, this leads increasingly to inaccuracies during the measured value recording. A high input impedance of the reference electrode can at most slow down their aging, but not him prevent, so that the Reference electrodes are consumed within certain time intervals are and have to be exchanged.

Of the The invention is based on the object, in a generic measuring device reduce the rate of aging of the reference electrode and thus significantly extending the time intervals for their exchange.

These Task is starting from a generic measuring device characterized solved that, at least the connection between the reference electrode and the meter a switching device is controlled interruptible and closable.

hereby offers the possibility the actual Duration of current flow between the reference electrode and the meter to the for the measured value recording to limit the time required which makes the time of the current flow even with several measuring processes per day between the reference electrode and the meter to less than 0.1 percent the duration of the previous current flow is reduced. Achieved with it the reference electrode from the point of view of the flow-dependent aging Life, which is within the range of the life of the object to be protected, or even exceed it.

For certain use cases It may be advantageous, though the connection between the Protective object and the measuring device controllably interruptible and closable by the switching device.

Provided both the connection between the reference electrode and the meter, as well controlled the connection between the protected object and the measuring device can be interrupted and closed is, it is beneficial to have both connections through a common Be able to interrupt and close the signal of a telecontrol center.

Provided The supervision the protection potential is to take place at predetermined intervals, it is appropriate, the Switching device for producing or opening the electrical connection between the meter and the reference electrode or the measuring device and the protected object to control a signal of a real time clock.

Further Details and advantages of the invention will become apparent from the following Description of an example shown in the drawing embodiment the same.

In the drawing, an embodiment of a measuring device according to the invention is shown, which is used to monitor the cathodic protection of corrosion of a designed as a metal tank protection object 1 serves, into the ground 2 is embedded. In the immediate vicinity of the protected object 1 is in the ground 2 a reference electrode 3 arranged. The protected object 1 is via an electrical line 4 with an analog input of a measuring device 5 a telecontrol system 8th connected while the reference electrode 3 via an electrical line 6 with another analogue input of the measuring device 5 connected is. Both electrical lines 4 . 6 can through a switching device 7 be interrupted, which may be formed so that either each of the two electrical lines 4 . 6 regardless of the other electrical Line can be interrupted or closed, or both lines 4 . 6 can only be interrupted or closed together.

If no measured value recording takes place, at least the electrical line is 6 through the switching device 7 interrupted. It may be appropriate for certain reasons that when interrupted electrical line 6 also the electrical line 4 is interrupted. Regardless of whether with open electrical line 6 also the electrical line 4 is opened flows in this position of the switching device 7 no current between the reference electrode 3 and the meter 5 , so that the reference electrode 3 not burdened and therefore not subject to aging.

To record the measured value, the electrical line 6 and optionally also the electrical line 4 through the switching device 7 closed so that between the reference electrode 3 and the ent speaking entrance of the measuring device 5 Current flows and the potential between the protected object 1 and the reference electrode 3 measured and evaluated as a benchmark for the quality of corrosion protection.

Since a measured value acquisition requires only a short time, a reduction in the duration of the current flow between the reference electrode results even with several measurements per day 3 and the meter 5 to less than 0.1 percent of the duration of the previous flow of electricity. With this huge reduction in the duration of current flow between the reference electrode 3 and the meter 5 a correspondingly large reduction of the aging of the reference electrode is achieved, which is a corresponding extension of the lifetime of the reference electrode 3 causes.

That at the inputs of the measuring device 5 The potential applied to it can first be evaluated by the measuring device 5 downstream signal processing device of Fernwirksytems 8th are supplied to then compare the signal thus obtained in a battery-powered data processing device with a stored limit in this. If the determined signal value differs in an impermissible manner from the stored limit value, then the protection potential required for adequate corrosion protection is not attained, for example a corresponding signal from the telecontrol system can be transmitted via a radio module for GSM assigned to the data processing device 8th be sent to a telecontrol center.

Since signals can also be received from the outside via the radio module, it is also possible to transmit from the remote control center to the data processing device a signal to be processed by the remote control station or the signal processing device to the switching device 7 to close the electrical wires 4 . 6 to send. As a result, a check of the protection potential can be initiated by the remote control center at any time.

If the protection potential should be verifiable at certain time intervals or at certain times, the telecontrol system and thus the measuring device can be assigned a real-time clock whose signals via the signal processing device and the data processing device a response of the switching device 7 in the sense of closing or opening at least the electrical line 6 in order to be able to check the protection potential rhythmically.

Claims (4)

Measuring device for a telecontrol system for cathodic protection against corrosion with monitoring of the protection potential between a arranged at least partially in the ground or in the water metal protection object on the one hand and arranged in its immediate area reference electrode on the other hand, both the object to be protected and the reference electrode via an electrical connection with one each Input of a measuring device is connected, characterized by in that at least the connection between the reference electrode ( 3 ) and the measuring device ( 5 ) by a switching device ( 7 ) is controllably interruptible and closable. Measuring device according to claim 1, characterized in that the connection between the object to be protected ( 1 ) and the measuring device ( 5 ) by the switching device ( 7 ) is controllably interruptible and closable. Measuring device according to claim 2, characterized in that both the connection between the reference electrode ( 3 ) and the measuring device ( 5 ), as well as the connection between the protected object ( 1 ) and the measuring device ( 5 ) is controllably interruptible and closable by a common signal of a remote control center. Measuring device according to claim 1 or 2, characterized in that the electrical connection between the measuring device ( 5 ) and the reference electrode ( 3 ) or the measuring device ( 5 ) and the protected object ( 1 ) is controllably interruptible and closable by a signal of a real-time clock.