DE1466634C3 - Brake magnet for electricity meters - Google Patents

Description

3 4

th for electricity meters with a device for FIG. 3 is a vertical section through the

Fine adjustment of the magnetic flux to the braking magnet with embedded additional permanent magnet

with which, with relatively little effort, a very pleasant,

finely graded. Regulation of the braking torque carried out- F i g. 4 is a plan view of a magnet body

men can be. . 5 with embedded additional permanent magnet, the »opposite

Compared to the previously known brake magnet is rotated above the maximum position,

with fine adjustment, F i g. 5 another example of a machine

a completely new path has been taken in that the invention

As a fine adjustment device, an additional duration. permanent magnet slidable in a rectangular

rriagnet is used, which is arranged adjacent to at least one io shaped recess,

of the two magnet bodies in such a way that they can be rotated or displaced

is slidably attached that its poles in the one Fig. 5.

End position at unequivocal and in the other of the in F i g. 1 shown brake magnet consists

End position on poles of the same name of the magnet body from the U-shaped support body 1, on which the magnet

a'ngrenzen. 15 gnet bodies 2 and 3 at a distance from one another in such a way

The particular advantage of the invention is that there are strengthened between their opposite

in that an air gap 4 is present due to the fine-grained regulation of the braking surface. by doing

moment only a short adjustment time for the calibration a counter brake disc5 (Fig. 3) rotates. the

is required, the stability of the magnet body U-shaped support body can be made of ferromagnetic

by is not affected. 20 material so that it can be used as a force line back

Furthermore, the maximum setting is full, the conclusion is effective.

achievable with the applied magnetic material in the case shown in the present example

Braking torque available. Magnetization, it is not necessary to

In an advantageous embodiment, the invention is made of ferromagnetic material herzu -

the additional permanent magnet is placed in a recess of the 25th.

Magnet body arranged. The recess in which at least one of the magnetic bodies 2,3 is with

rather, the appropriately adapted additional duration of a recess 6 is provided.

gnete are embedded, can be circular or in the case of the one shown in perspective in FIG

have a rectangular shape, the magnet body 2, this recess 6 is circular

Control is formed by rotating or moving the 30. The additional duration is in this recess

Additional permanent magnets takes place. The additional permanent magnet 7 - as shown in FIG. 3 can be seen - turning

gnet is embedded in the magnet body in such a way that the bar is embedded in the one adapted to the recess

in the interior of the magnet body extending field disk-shaped shape. To this end

Never. enforce the additional permanent magnet. This ■ the additional permanent magnet 7 has a shaft 8, which

is best achieved in that the magnetizing 35 through a hole in one leg 9 of the U-för-

tion of the magnet body protrudes when the additional carrier body is embedded. By means of the pen

permanent magnets. 10, which are also used as a rotary handle for control

The magnetization of the magnetic body can be in forms, the additional permanent magnet 7 can be made in various ways. attached to the recess. In addition to a two-pole magnetization, the spring has also proven to be advantageous to change the special setting, a three-pole one, because it prevents braking torque.
a particularly good braking torque can be achieved with it. As can be seen from FIG. 3, the im is prevailing. With this three-pole magnetization, the field lines running inside the magnet body are magnetic bodies on the additional permanent magnets on the meter brake disk. In this example, the inverted surface with three poles of alternating 45 magnetic bodies is magnetized with two poles of alternating polarity, in such a way that it is magnetized on the upper surface, with the lines of force in the inner surface of the magnetic body, three pole tracks, extending in an arc shape. The Masind, which have unlike poles on the opposite gnetization, are opposed to the additional permanent magnet body. With this magnet, so that in this position the maximum magnetization, the lines of force run inside 5 ° braking torque is present.
the magnet body is arched. If the additional permanent magnet becomes a certain

Twisted by changing the position of the additional duration angle range, as shown in FIG. 4 visible

magnets compared to the magnetic bodies is higher, so the change in the force level

Line of force flow changed. This change is a weakening of the magnetic flux in the course of the river

largest, when the change in position takes place so far, 55 and thus the braking torque. The largest

that the weakening running in the additional permanent magnet is in this example with a rotation

Lines of force enter the lines of force in the magnet body by 180 ", because in this case the

who are directed in the same direction or in the opposite direction. The additional lines of force of the magnetic body correspond to the lines of force of the

permanent magnet is expediently with a loading additional permanent magnets are opposed,

actuation and display device provided with the 60. Another embodiment is shown in FIG.

the desired degree of regulation can be set. placed, in which the magnet body 2 has a right

Two exemplary embodiments of the invention are provided with a corner-shaped recess 6. In this information below explained on the basis of the drawings. It shows a cuboid adapted to the recess 'additional permanent magnet 7 in the form of a longitudinally displaceable

Fig. 1 is a perspective view of the s.s. ordered by a bolt 14 from the outside.

Brake magnet, "can be made. The magnet body is with this

2 shows a perspective illustration of a three-pole magnetized embodiment example, the tensile body with circular recess. Set permanent magnet, on the other hand, has two poles. In one

The end position held by the additional permanent magnet during magnetization is the maximum braking torque present, while in the other end position, which is shown in FIG. 6 illustrates, the largest There is a weakening of the magnet body because in this position the lines of force of the additional permanent magnet the lines of force .of the magnetic body are directed opposite.

The degree of regulation that depends on the dimensions of the auxiliary permanent magnet in relation to the Magnetic body is dependent, can be made visible by a display device by the Additional permanent magnet is connected to an actuating disk 11 which is provided with a marking 12 is. A counter-marking 13 is attached to the carrier body 1, so that one can with the corresponding

the setting can immediately read the percentage weakening of the braking torque.

To prevent demagnetization of the magnets, a magnetic material with a high coercive field strength, preferably greater than 1000 oersteds are used. The magnets according to the present Invention are expediently made of a comminuted permanent magnet material and a plastic binder produced in a known manner! by pressing. The pressed magnetic body can in a simple manner in their production with the recesses proposed according to the invention be provided for admitting the additional permanent magnets. In addition, actuators can be used directly be pressed into the additional permanent magnet.

1 sheet of drawings

Claims (9)

1 2 are and opposing poles opposite patent claims: stand. . 1. Brake magnet for electricity meter, best-: - starting from a U-shaped support body, on 5 the legs of which are multi-track magnetic bodies attached opposite one another, whose one The invention relates to a Bremsmagneandcr facing surfaces an air gap th for electricity meters, consisting of one form that of the magnetic flux of the Ma-U-shaped support body, on its legs Gnctkörper is penetrated and the one Vorrich- io multi-track magnetic body opposite one another for fine adjustment of this magnetic area are attached, their facing upper flux has, thereby marked areas form an air gap, which is from the magnetine t, that as a fine adjustment device a visual flux is penetrated by the magnetic body and the Set permanent magnet (7) is used, which is adjacent to a device for fine adjustment of the magnet at least one of the two magnet bodies (2 15 see flux. or 3) so rotatably or displaceably attached by the magnetic flux penetrated, that its poles in one end position at the air gap runs the meter brake disc,
unlike and in the other end position. The U-shaped support body can consist of ferromaan poles of the magnet body with the same name, so that it acts as iron boundaries. 20 conclusion works. 2. Brake magnet according to claim 1, characterized in that when using a ferromagnetic indicates that the additional permanent magnet (7) are in yoke body for such a brake Recess (6) of the magnet body (2 magnets also become known construction methods in which- or 3) is embedded. only one leg with a magnetic body. 3. Brake magnet according to claims 1 and 2, 25 hen is, while the opposite leg is the characterized in that the opposite pole delimiting the air gap in the magnet body forms. via (2 or 3) made recess (6) a ■ It is already known to use brake magnets for electrical has a circular shape and to provide fine adjustment in the auscy counters, Recessed additional permanent magnet (7) to fine-tune the braking effect, disc-shaped and arranged to be rotatable. net is. Tried two paths. 4. Brake magnet according to claims 1 and 2, the first is that a magnet thereby characterized in that the position in the magnet body of the brake magnet is relative to by means of (2 or 3) made recess (6) one of the other magnet body rotatable or in Beliere rectangle-shaped Has shape and which has formed slidable in the 35 biger direction to the Recess, additional permanent magnet (7) acting on the counter brake disc, can be moved magnetically is arranged. see the flow and thus the braking torque 5. Brake magnet according to claims 1 to 4, the. This braking value setting by adjustment characterized in that the additional duration of the one magnet body with respect to the other ermagnet (7) is held by means of a spring (10), 40 calls for complex adjustment drives that the which at the same time as a rotary handle for regulation increase production costs. forms is. Another disadvantage of this regulation is in particular 6. Brake magnet according to claims 1 to 5, which can be seen in the fact that even at a low level characterized in that the additional duration pivoting of the one magnetic body opposite magnet (7) provided with a marker (12) 45 the other a relatively large change is, with the help of which the set degree of the brake torque occurs, so that for the exact It takes a lot of time to achieve a calibration on the carrier body (1) brought counter marking (13) can be read. is required. 7. Brake magnet according to claims 1 to 6, the other possibility for fine adjustment of the characterized in that both the magnetic 50 braking torque consists of magnetic secondary bodies (2, 3) as well as the additional permanent magnet (7) in the form of regulating disks, flux guide pieces to be provided from a mixture of a powdery permanent and the like. These shunts have the magnetic material and a plastic binding task, part of the magnetic flux briefly means exist, which close under pressure and heat, thereby pressing the brake on the meter is. · 55 to change the braking force acting on the disc. 8. Brake magnet according to claim 7, characterized in that the control with such magnetic secondary characterizes that the powdery permanent key has an intervention in the constant of shape gnetwerkstoff a high coercive field strength of the magnet system result. Even if the preferably has more than 1000 oersteds. . Permanent magnets are carefully stabilized, preserve them 9. Brake magnet according to claim), at \ vel- 60 their constancy in the long run not, in particular chem on at least one of the two magnetic. when strong opposing fields with high meter load body an additional permanent magnet rotating or acting on the highly permeable conductive pieces, and is slidably attached, dadyrch marked. their braking force changes. Moreover, this shows Redaß the two magnetic bodies (2, 3) on their gelung by magnetic shunt the after-counter brake disc (5) facing surface 65 part on that the braking torque in the maximum Einmit three pole tracks with alternating polarity does not reach the value that would be nemagnetized without magnetization are in such a way that the lines of force would result in connection. The object of the invention is to provide a braking magnet inside the magnet body (2. 3) in an arc shape.