DE472768C - Adjustment device on the drive systems of induction measuring devices - Google Patents

Description

Adjustment device on the drive systems of induction measuring devices It is known that the drive irons of the drive systems of induction measuring devices, for example Tension and current iron, to be connected ferromagnetically, d. H. one made from iron plate sinkers or -lamellen existing connection path between the parts of the drive iron, so for example the tension and current iron. This ferromagnetic Connection has as a result of the connection between the parts of the Triebeisen's remarkable advantages by reducing the resistances of the orbits of the effective drive flows are reduced, with a smaller exciting number of ampere-turns so relatively large flows and thus good torques can be achieved can.

With such drive systems the parts of the drive irons come together with the parts used for the ferromagnetic connection from a single piece or each of a single board or lamella is formed, so is the assembly of the measuring device complicated and expensive, adding the individual lamellae to make the iron package layered in the coils or the coils wound onto the finished iron package by hand Need to become. Here is also with the coils in which the lamellas are layered, replacement, as would be required by a coil defect, is not possible. An easy Separating such drive irons probably facilitates the assembly of the parts of the measuring device, but has the disadvantage that the parts of the drive iron opposite the drive pulley are difficult to adjust.

The object of the present invention now aims to provide an adjustment device to create on the drive systems of induction measuring devices, which the mentioned Combined advantages, in which, however, the disadvantages described are avoided. According to the invention, the position of the ferromagnetically interconnected drive irons can be adjusted to each other by parting lines and adjusting means.

The drawing shows three exemplary embodiments of the invention, wherein only what seems necessary for understanding them is shown.

Fig. I is a view and Fig. 2 is a plan view of the first embodiment.

Fig. 3 shows the second and Fig. 4 the third embodiment. In the first embodiment, I is a support frame that is bent at right angles Has 2 margins. This support frame is in the housing of a measuring device, namely after Think of the example of an induction meter assembled. By means of screw bolts 3 elbows are 4 on the Support frame I attached. These bolts 3 are by conical lugs 5, which are in corresponding countersinks in the support frame I grasp, fixed in their position on this exactly. The screw bolts 3 protrude the outer legs of a three-legged tension iron 6 through, and the latter is held on the angle pieces 4 by means of screw nuts 7.

8 is a two-legged current iron, the one protruding upwards on the side Has extensions 9. These extensions 9 represent the ferromagnetic Connection path between the tension iron 6 and the current iron 8 and are at Io with a surface against a surface of the outer legs of 6, i.e. H. Io are Parting lines between the two irons. These parting lines that are parallel to the pole legs extend from 6 and 8, lie over the legs of the angle pieces 4, and the extensions 9 are attached to these legs by means of screws II.

On a second leg I2, each of the angle pieces 4 engages with a fine thread 13 a differential screw I3, I4, whose with coarser Threaded part I4 is screwed through screw holes, which are in the bent Edges 2 of the support frame I are provided. A hexagonal, slotted one Head I5 on each of the differential screws I3, I4 is used to adjust the differential screws.

I6 are fixing screws, which the legs I2 of the angle pieces 4 connect to the support frame I such that, when the screws I6 are loosened, the Elbows 4 can be rotated a few degrees.

The one on the drawing is not between the poles of the iron 6, 8 shown drive pulley of the meter.

By adjusting the differential screws I3, I4, the drive iron 8 relative to the tension iron 6 fixed to the support frame I can be set, what for adjusting the electrical properties of the drive system, such as the adjustment of the torque, is advantageous. However, this adjustment affects the guidance or direction of the instinctual flows not, and that as a result of the unchanged permanent ferromagnetic connection between current and tension iron.

Due to the arrangement of the fixing screws I6, any unintentional Adjustment of the current iron 8 avoided.

To prevent the differential screws I3, I4 from jamming in the legs To avoid I2 when adjusting the angle pieces 4, the threaded points of the Leg I2 shortened by countersinks I7.

The second embodiment (Fig. 3) also shows a three-legged one Tension iron I8, which by means of screws that passed through holes I9 of the iron is fixed in the housing of the measuring device. The two-legged electricity iron here as well 2o connects with extensions 2I at 22 to the tension iron I8, there separating joints forming. Recesses 23 in the tension iron I8 and recesses 24 in the extensions 2I complement each other to form transverse slots in the parting lines 22. The current iron 2o is by means of Holes 25 and fastened through these screws in the housing of the measuring device.

Using a screwdriver, dotted on the left as shown in Fig. 3 indicated, successively inserted into the transverse slots 23, 24, can through Tilting the same shifted the current iron 2o relative to the tension iron I8 will.

The third embodiment (Fig. 4) also has three legs Tension iron 26 downwardly extending extensions 27 to which are left of parting lines 28 the current iron 29 connects. Attached to the extensions 27 Plates 3o lead the current iron 29 on the extensions 27. Into the plates 3o bolts 3I, which have an eccentric 32, are screwed in. This eccentric 32 form the stone backdrop-like slots 33 of the stream iron 29. By turning the The screw bolt 3I can accordingly move the current iron 29 relative to the tensioning iron 26 will.

Other possible designs would also be conceivable.

Claims (5)

PATENT CLAIMS: I. Adjustment device on the drive systems of induction measuring devices, in which the drive irons are ferromagnetically connected to one another, characterized in that that the position of these driving irons to one another can be adjusted by means of parting lines and adjusting means are. 2. Adjusting device according to claim I, characterized in that the Adjusting means that connect the drive irons to one another at the parting lines. 3. Adjustment device according to claims i and 2, characterized in that angle pieces of the adjusting means serve for the fixed fastening of one of the drive irons in the measuring device housing and these elbows, at the same time holding the other iron, this one in his Secure position to the first drive iron. 4. Adjustment device according to claim i, characterized in that transverse slots are provided on the parting lines are, which belong to the connected drive irons and which are introduced into them by means of a Tool (like a screwdriver) by tilting it a shift allow the drive irons to each other. 5. Adjusting device according to claim I, characterized in that the adjusting means eccentric parts of the drive iron interconnecting screws on one of the drive irons and link-like slots on the other of the drive irons are the slots in which the eccentric parts act as sliding blocks works.