DE637902C - Device for the remote transmission of measured quantities by means of pulses, in which the current is regulated at the receiving location by means of an ampere-hour counter with temperature-dependent eddy current braking - Google Patents

Description

Device for the remote transmission of measured quantities by means of pulses, at which the current at the receiving location by means of an ampere-hour meter with temperature-dependent Eddy current braking is regulated for telemetry systems using the pulse frequency method it has already been proposed to provide a facility at the receiving point that the individual incoming impulses are supplied and the one the display instrument regulates the current flowing through to a value proportional to the measured variable.

Apart from the receiving relay, this device consists of one rotating measuring device, the speed of which is proportional to the amount of current and the duration of the current is, for example, an ampere-hour meter. This ampere-hour meter works with the receiving relay in such a way that the total of the ampere-hour meter The amount of current flowing is proportional to the pulse frequency and therefore proportional is the measured variable to be remotely transmitted. The receiving instrument at the display location is also flowed through by the current flowing through the ampere-hour meter, see above that its display is also proportional to the measured variable to be transmitted remotely.

The devices described above now have the disadvantage that they have quite significant temperature errors. This is because the eddy current braking due to the temperature dependence of the resistance of the brake drum or brake disc is also temperature dependent. The ampere-hour meter increases at a given speed consequently a 40/0 lower current at a temperature increase of about 10 °. The invention avoids this disadvantage in that the display of the transmitted Measured value is made by measuring the voltages occurring on the ampere-hour meter will. Appropriately, according to the invention, the arrangement is also made in such a way that that the ampere-hour meter still has a resistor, preferably a copper resistor, is connected upstream, in which case the voltage across the resistor and ampere-hour meter is measured by the display instrument. By measuring the voltage on the Winding of the ampere-hour meter is namely. thereby a temperature-independent Indication gained that the resistance of the winding changes in the same proportion like that of the brake drum. While by changing the resistance of the brake drum or brake disc at a certain temperature increase appropriate Reduction of the braking torque and thus also the power consumption occurs is due to increasing the resistance of the winding on the contact brushes of the meter Occurring tension always carries the same advertisement as before the temperature increasesz-Iri the drawing shows an embodiment of the invention is shown schematically, whereby on the representation of the transmitting device and the transmission channel, there insignificant for an understanding of the invention, is omitted.

In the drawing, i means the receiving relay, 2 the armature of the receiving relay, 3 a rotary relay, q. the rotating armature of the rotary relay, 5 a counter, 6 a resistance body, 7 the axis of the rotary relay and the resistance body, 8 a sliding contact, 9 also a sliding contact, io the axis of rotation on which the support arm of the contact 9 is attached. ii is an ampere-hour meter that is stuck on the axis io, 12 a resistor, for example a copper resistor, 13 a voltage measuring device, 14 grinding brushes which rest on the commutator of the ampere-hour meter ii. 15 is a power source.

The operation of the device according to the invention is as follows: The impulses arriving via the long-distance line are picked up by the receiving relay i, so that this turns over its contact 2 in the rhythm of the received impulses. Through this either the left or the right coil of the rotary relay 3 is excited, so that its anchor q. in the cycle of the incoming impulses or in the cycle of the Excitement of the two legs turns. The one stuck on axis 7 of the rotary relay Resistance roller 6, on which, as indicated in the drawing, individual Resistance levels are attached, rotates, so just like the rotating anchor q. with a speed that is proportional to the frequency of the incoming pulses. The resistance body 6 is arranged in a circular or commutator-like manner Provided contacts on which the brush 9, which is on the axis i o of the ampere-hour meter i i attached, loops. The ampere-hour meter i i thus receives a current, of the resistance levels of the resistance body that are switched on in each case: ers 6 is determined. The number of revolutions changes. of the rotary relay 3, then another Resistance level switched on, whereby four ampere-hour meters i i over the contact brush 9 initially receives either too much or too little power. Here is the arrangement of the resistance levels so taken that if the ampere. hour counter initially an increased current and when leading the ampere-hour counter by switching on the corresponding; resistance level, a reduction in the number of revolutions of the ampere-hour counter is brought here. The ampere-hour meter i i thus adjusts the series resistor 6 always derah until its speed equals the speed of the rotary magnet q. will. The speed and thus also the current of the ampere-hour meter are constant Assuming temperature, it is always proportional to the pulse frequency that has arrived. Since, for the reasons mentioned at the beginning, the measurement is required in the event of strong temperature fluctuations of the current regulated by the amperage meter, an incorrect display of the transmitted Measured value has the consequence, according to the invention, the voltage at the terminals 14 of the ampere-hour meter i i measured or the measurement of the voltage via ampere-hour meter i i and resistor 12 made. The display of the voltmeter 13 is also independent of temperature in the event of strong temperature fluctuations, - as the reduced power consumption of the ampere-hour meter i i by increasing the resistance of the winding im Ampere-hour counter or in the series resistor 12 is compensated. In many In cases it is sufficient to measure the voltage exclusively via the terminals of the ampere-hour meter to undertake; in other cases, when the ampere-hour meter i i is insufficient Contains copper, it is advantageous, as shown in the drawing, the resistor 12 upstream and then the voltage across resistor 12 and ampere-hour meter i tap i. A copper resistor is expediently used as resistor 12, because it has a temperature coefficient that is the same as that of the ampere-hour meter is equivalent to. The arrangement according to the invention is for all telecommunication facilities by any of the pulse methods known per se, in which the adjustment a measuring current - it takes place by means of an ampere-hour counter.

Claims (1)

PATENT CLAIMS: i. Device for the remote transmission of measured quantities by means of impulses, in which the current is measured at the receiving location by means of an ampere-hour meter is regulated with temperature-dependent eddy current braking, characterized in that that the display of the transmitted measured value by measuring the on the ampere-hour meter occurring tensions is made. z. Device according to claim-i, characterized in that the linear hour meter is preceded by a resistor and that the voltage on the ampere-hour meter is used to display the transmitted measured value the voltage occurring at the resistor is also measured. 3. Establishment according to claims i and z, characterized in that the resistor is a copper resistor Is used.