DE367778C - Induction counter with current and voltage drive core on different sides of the drive pulley - Google Patents

Description

Induction meters with current and voltage drive core to different Sides of the drive pulley. In the case of induction meters, where you can see the effective drive fields for special reasons by far more than go ° wants to shift against each other you get very big trouble when you see the shift between the two fields only: by delaying the effective shunt field against the terminal voltage want to achieve. With this method of displacement one does not have to have just one significant one Own consumption of the shunt coil in Kaur will take, but will also, especially with small numbers of periods, quickly reach the limit of the possibility of shifting.

There are counter designs known in which the shunt field around. a certain angle against: the terminal voltage delayed, the main current field at the same time against the terminal tension is premature. With such arrangements is the difficulty, between the effective instinctual fields, one that goes beyond go ° Achieving shift, not so great. After all, it is also the case with those who have become known Executions of the type mentioned are not possible, the drive fields by more than io ° over go ° Shifting them out against each other would at least have very unpleasant disadvantages in the other properties of such meters are accepted.

In meters according to patent 148579, for example, a bracket is brought into the line of force of a main current field that only penetrates the drive pulley of the meter once. If you only want to move a little more than go ° here, you have to attach strong short-circuit rings to the bracket.

You can convert the effective main current field even without short-circuit rings Move much larger angles forward against the terminal tension when you move the Structure of the meter so that the main current field passes through the drive pulley twice, and a clip made of paramagnetic material magnetically shunted the main current core forms and of the effective power lines of the main current field also twice is enforced.

If, for example, a two- or three-pronged main current drive core i is arranged on one side of the armature disk and a three-pronged shunt drive core 2 on the opposite side, a bracket 3 will fulfill this purpose if, the free ends 3 " and 3b: the two prongs of the main current drive core lie opposite between these and the drive pulley 6.

The fastening: of the bracket can; z. B. by the elbows 4.a and q. b, 511 and 5b take place on the shunt drive core. If these elbows are made of paramagnetic material, they form, with the outer cores of the shunt drive core, a magnetic shunt parallel to the diaper 3 for the ineffective main current lines of force.

If you adjust the bracket 3 through the angles 4a and q.b in its infernal position such that the ends 3a and 3b are as close as possible to the main current core, so is the shift of the effective field against: the terminal voltage is slightly smaller, as if the ends of the bracket are as close as possible to the pane, because the bracket is in this case penetrated by less effective lines of force, because he has one absorbs larger part of the existing lines of force as long as the magnetic resistance of the air path between the bracket and the main flow core is smaller than that between the bracket and By-pass drive core, but not to the same extent as the magnetization losses how the hysteresis losses contribute to the shift of the effective main current field. This The process also has the result that the magnetic shunt hoop in the the first, position is saturated more quickly than in the latter. The counter turns off for this reason in the first position at full load a plus error of about 5o percent the full load, in the latter position, however, a minus error. Man. is therefore able to @ by setting the bracket to a medium altitude To adjust the counter so that there is no difference between full load and half load having; So by means of such a bracket one can not only measure the size of the The shift of the effective fields regulate, but also the influence of the damping compensate for this main current field.

The shift in the effective main current field is caused by change the height adjustment of the bracket, however, only changed very little. In very wide However, this shift can be limited by changing the magnetic resistance change the bracket, for example by cutting the bracket 13 and different dimensioned tail pieces 7 with the interposition of metal strips 8 of non-magnetic Material of different thickness.

Great changes are made in the displacement; by moving the hanger more or less pulls out of the area of the effective main stream lines. So you get through first. the last two means, or even just one same the desired displacement angle at medium height of the bracket ; set and then by slightly changing the hell setting the damping, des compensate effective main current field.

If the angle pieces 4d or 5a 'miV are provided with an eccentric, so one is able to fine-tune the displacement of the effective one at the same time Make the main current field.

Another, enlargement of the shift between the two effective ones Fields can be brought about by the fact that one around the bracket of the consumption current through-flowing windings in such a winding sense. lays down that @ dürcl @ Ida's cooperation of the bracket field with the shunt field: Torque from the opposite direction of rotation arises as a result of the interaction of the shunt field with the field of the Main thruster core. The loop windings could have a controllable resistance be connected in parallel to the size of the bracket field and thus the size of the To be able to change the shift.

Claims (1)

PATENT CLAIMS: i. Induction meter with current and voltage drive core on different sides of the drive pulley, characterized in that the two ends of a bracket made of paramagnetic material lie between the two leg ends of the main current drive core and the drive pulley ", the bracket being fastened in such a way that it passes through Change of its position both in the horizontal and vertical direction serves to shift the effective drive fields in relation to one another.a. Meter according to claim i, characterized) that the bracket is dimensioned in such a way that it is already magnetically saturated between 50 and 100 percent of the full load, for the purpose of compensating the effect of the damping of the main current field with increasing load. 3. Meter according to claim r, characterized in that the bracket is attached to the shunt drive core by paramagnetic or non-magnetizable holders. 4. Meter according to claims i to 3, - characterized by @ that, the position "of the bracket to the drive train be or to the main current drive core is made adjustable by eccentric. 5. Counter according to claims i to 4, characterized by: "d'ass the magnetic resistance of the bracket is adjustable: made. 6. Counter according to claims i to 5, characterized by that around. The magnetic bracket The windings through which the consumption current flows are placed in such a winding direction that the interaction of the bow field with the shunt field produces a torque from the opposite direction of rotation than the interaction of the shunt field with the field of the main current drive core. 7. Counter according to claim 6, characterized in that the current flowing through the bow windings through a controllable, parallel-connected, electrical table: s resistance while remaining constant. Consumption flow can be made variable.