DE751156C - Device for improving the error curve of peak counters with adjustable counter-torque, i.e. with adjustable registration limit - Google Patents

Description

Device for improving the error curve of peak counters with adjustable counter torque, i.e. with adjustable registration limit. These are peak counters known in which a smaller or larger part of the counter torque through a mechanical, electrical or magnetic counter torque is suppressed in this way that the counter only closes when a certain power limit is exceeded starts to run and then runs at a speed that only corresponds to the excess power is equivalent to. It is also known to change the registration limit by changing this counter-torque to relocate. One therefore has such counters with setting scales for the counter torque which are best calibrated according to performance levels.

When such counters were perfected in the course of time, they became Also the requirements on the measurement accuracy increased.

Now the measuring accuracy of such counters can be reduced by that of ordinary Counters known means (magnetic shunt in the main current magnet, means to generate the so-called stream propulsion or the like) are increased; but straight counters, those equipped with such means show at the different registration limits significant errors.

There are also known counters in which, for example, the magnetic Shunt is provided with adjusting devices. Furthermore is a top counter with means to eliminate the effects of room temperature fluctuations on the Measurement accuracy of the counter has become known. This temperature compensation means but are not adjustable here.

The invention is based on the knowledge that the otherwise with ordinary counters error-compensating means for peak counters with adjustable Counter-torque, i.e. with an adjustable registration limit, cause new sources of error. According to the invention, the error curve of such counters is improved in that when adjusting the registration limit, preferably automatically, also the error-compensating ones Means can be adjusted accordingly. With the appropriate adjustment is included understand the following. Has z. B. a counter has a magnetic shunt on the current iron, which begins to saturate at a certain load range, and as a result with increasing meter load, an ever larger proportion of the main current flow pushes the motor ineffective shunt path into the drive path, so that If the current drive field increases more or proportionally with the current, it becomes more as is known as a proportional increase in the main current flow due to the increasing Load increasing main current attenuation compensated for that in the absence of a shunt leads to a greater drop in the error curve in the area of the higher one Would cause counter loads. Now the effect of the magnetic shunt can be increased or weakened by known means by e.g. B. on the magnetic Attaches shunt adjustable egg parts. So far, these funds have only been used used to set the counter to the most favorable error curve during calibration. According to the invention, there is a novel use of these setting means in the way that the higher the magnetic shunt, the more ineffective the registration limit of the peak counter is and the more effective, the lower it is lies, the more the peak counter adapts to the behavior of an ordinary counter approaching. By using the magnetic Makes shunt ineffective, one takes into account the fact that now the counter only starts up under high loads and runs much slower than a normal one Counter with the same performance. It is therefore also z. B. the effect of current damping, which is proportional to the armature speed, now much smaller and can now through a much weaker acting shunt can be fully compensated. In which Degree of the inagneti cal addition circuit must be adjusted. depends on the quirk of the counter.

No general rules can be drawn up for this, but makes finding a proper degree of influence on a given Design no problems. One becomes the shunt when calibrating the meter first give a certain basic attitude and then make sure that this basic attitude when the power limit is reached is changed to the same degree as the current damping going back.

In a known way, you will also become others to improve the error curve Adjust serving means together with the performance limit, e.g. B. Means for Generation of the current propulsion. The effect of such means comes about by that in the current drive field there is a certain asymmetry in the form of a phase, position or a change in strength is brought into it. The degree of asymmetry can be more simple Way by adjusting iron parts, conductive screens in the area of the current drive field, changed in the event of a change in the performance limits.

The higher the performance limit, the smaller the asymmetry is made of the Triehfeld and the smaller the current propulsion will be. in certain circumstances can also be used in the same way for friction compensation means, z. B. the voltage idle drive can be adjusted.

For example, if the counter torque of the peak counter is set to mechanical Paths generated, then it can happen that the friction of the means applied lower registration limit is much more important than higher lying registration limit and that, as a result, the peak counter for smaller ones Performance limits has negative measurement errors, with larger performance limits positive measurement errors. In the case of small power limits, you will then be asked to increase the voltage idle drive, ensure a corresponding humiliation in the case of high performance limits. Corresponding applies if on the meter anchor for the purpose of friction compensation or improvement of the Acting on the error curve of auxiliary drive systems. In this case you will get the effect of the Auxiliary drive systems at the same time when adjusting the registration limit accordingly change. The so-called

Voltage dependence can be traced back to voltage damping insofar as it is due to voltage damping is, in a similar way to the different counter speeds at the different Registration limits are adjusted.

An exemplary embodiment of the invention is shown in the drawing. I is the counter armature, the one from the tension magnet 2 and the main current magnet 3 existing drive system and driven by the brake magnet 4 is attenuated. 5 is a magnetic shunt on the main current magnet 3 with a known adjusting device 6, which is attached to the yoke 7 of the yoke Tension drive magnet is rotatably mounted. The design and mode of operation of such Adjustment means are known and should therefore not be explained in more detail.

A finger 8 is provided on the armature axis in a known manner Star 9 attached, the finger of which is an arm mounted eccentrically to the armature axis 10 lift a little from its stop II as the armature rotates, then slide past him, so that the arm again stops by the spring 12 II can be returned. The sprung arm 10 removes part of the armature its torque. The size of this portion can be increased by means of the disc 13 or weaker tension of the spring 12 can be set. With the disk I3 is The adjusting part 6 of the magnetic shunt via an intermediate gear 14 5 connected, so that each time when setting the registration limit the effect of the magnetic shunt 5 is changed accordingly. Around The control part 6 can save the intermediate gear 14 with a special adjustment device be provided.

The scale division for this adjustment device is so on the Scale division of the setting device I3 matched that when setting always one correctly assigned to the relevant registration limit for the same digits Setting the magnetic shunt results.

Claims (1)

PATENT CLAIM Device for improving the error curve of peak counters with adjustable counter torque, i.e. with adjustable registration limit, thereby marked that when the registration limit is adjusted, it is preferably automatic the means used to improve the error curve (magnetic shunt on the main current magnet, Means for generating a current propulsion or the like.) Can be adjusted accordingly. To differentiate the subject matter of the invention from the prior art are The following publications were considered in the granting procedure: German Patent specifications No. 630 599, 614 614113, 325726, 377676, 436252, 467175, 472067, 5I2249; British Patent No. 497,858; t ön i gs w rtb er, "Electricity Zabbler" ((1931) p. I33 ff.