DE1933551A1 - Liquid-filled magnetic compass - Google Patents

Description

Company P r e f a g, Carl Rivoir & Co., Wossingen, Prefag-Str.

"Liquid-filled magnetic compass"

The invention relates to a liquid-filled magnetic compass with a bearing part which is longitudinally displaceable against spring force, which carries the axis of rotation of the movable system. There was previously the risk that the relatively sensitive bearing for the axis of rotation when transporting the compass and at the assembly, i.e. if it does not yet contain any liquid filling, has been damaged. To prevent this from happening, one has the compass bearings, as mentioned, are already spring-supported. But even with this, the above-mentioned danger cannot be eliminated especially not if the bearings for receiving the axis of rotation of the movable system are designed as stone bearings. These stone camps are characterized by a sdir low Coefficient of friction, but on the other hand are very sensitive to impact and shock.

In addition, a bearing for axes of magnetic systems on compasses is known which provides that when the compass is at rest, the axis rests on a sensitive tip bearing, while in operation a coarser bearing is used. This stands in contrast to the © inen im dir @ kt @ B to the endeavor to make the storage © Inas of such a compass as smooth as possible during operation ητή so that go is as sensitive as possible. In addition, disadvantageously, the effectiveness of one or the other storage depends on the fact that a lever is actuated, which experience has shown that this is often done, 009882/0201

In contrast, the object of the invention is in compasses of the type outlined above, a perfectly functioning fine-tuning that does not require special adjustments by hand and to create coarse storage, the fine storage should be effective during the actual operation.

To solve this problem, the invention is primarily suggested that an additional coarse bearing in the form of sinh to each other supporting parts of the movable system and the compass housing is provided that the weight of the movable System is greater than the counterforce of the longitudinally displaceable bearing part supporting the spring during a displacement path of such Length that is not yet supported by the parts of the coarse bearing on one another, and that this counterforce of the spring is again greater is the difference between the weight of the moving system minus its buoyancy when carrying liquid filled compass. Thus, such a compass can easily be provided with a sensitive stone bearing without there is a risk of damage. Because as long as the compass is unfilled. e.g. during assembly or during transport, the coarse bearing comes into play, the relatively easy one heavy weight of the movable system of e.g. several 100 g. In operation, on the other hand, if the compass is liquid? is filled, the bulk of its weight is lifted due to the buoyancy of the moving system. The remaining The remaining weight can easily be absorbed by the movable fine bearing.

Further advantages and features of the invention can be found in the exemplary embodiments shown in the drawing in conjunction with the associated description, as can be found in the subclaims. ■ '"..'-' 00 98 8 2V02O9; ._". ^;

In the drawing shows:

1 shows the principle of the invention in a schematic representation,

Fig. 2 shows a first embodiment of the invention with a conical stone bearing and

Fig. 3 shows another possible embodiment of the invention with a perforated brick bearing.

The scheme of Fig. 1 shows the compass housing 1 with liquid filling 2 and the movable magnet system (float), which in upper and lower bearings 4.5 via its axis of rotation 6 is held. The lower end of the axis of rotation 6 is based on a movable bearing 7 (hereinafter referred to as fine bearing), which is longitudinally displaceable against the action of the spring 8.

According to the invention, an additional coarse bearing is provided, including a bearing part 9 of the movable system and a housing fixed Bearing part 10 are arranged so that they are supported on one another when the spring 8 is correspondingly compressed. According to the invention, the weight of the movable system, which in principle consists of parts 6, 3, 9, is also greater than the counterforce of the spring 8 during a displacement path of such a length that the parts 9, 10 are not yet supported on one another. On the other hand, this counterforce is again greater than the difference between the weight of the movable system described above minus its buoyancy with liquid 2 filled compass case 1. This supports the movable

When the compass is not filled, the system with its part 9 on the genteil 10 from, so that the sensitive bearing 7, which is preferred

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is designed as a stone bearing, this relatively heavy weight ι - - - "

does not have to carry. When the compass is full, however, the spring is only slightly pressed together, so that the parts take about the position shown in Fig. .. Here occurring vibrations of the compass can easily be done by the elasticity of the spring 8 are intercepted without damaging the bearing 7 is to be feared.

The distances between the bearings 9, 10 and the length ™ of the maximum possible path of the spring 8 are corresponding to the to coordinate the above.

In the embodiments of FIGS. 2 and 3, only the lower bearing points are shown in each case on an enlarged scale, while a representation of the float 3, etc. has been omitted.

2, the tip 11 of the axle 6 runs in the bottom of the cavity of the stone 12, which is supported by the spring 8 on the housing. The stone 12 thus forms the fine bearing, while the conical surface 14 of the axis of rotation 6 serves as the coarse bearing. Instead of such a conical mounting, a shoulder surface lying at right angles to the axis of rotation could of course also be provided, as is indicated in the schematic drawing in FIG. 1. However, a conical mounting has the advantages of saving space and absorbing greater forces without damaging the riveting of the cover plate. '. -

The use of the conical coarse bearing surfaces 13, 14 also has the advantage that this cone can be continued in the surface 15 of the compass housing. This ensures

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that when installing the float or the one supporting it Axis the axis tip by itself always slides into the actual bearing point 12 of the fine bearing, or finds.

Since, as mentioned, the risk of damage to the jewels is essential is reduced, you can choose cheaper stones with smaller rounding radii for them.

With the exception of the fine bearing and the point that engages in it the axis of rotation in the embodiment of FIG. 3 is the construction the same as in that of FIG. 2, so that the same reference numerals are used for parts that remain the same. The movable bearing system consists of the with the help of the spring supported bearing sleeve 16 with perforated and cap stone. The tread is denoted by 17 here. This version only sees one axial suspension of the perforated stone. If necessary, a radial suspension could also be provided, with the bearing sleeve 16 would be deflectable laterally. The lower pin of the axle 6, which engages in the perforated brick support, is denoted by numeral 18 net.

Protection is claimed for such compasses as well as for bearings or axes designed for them. All depicted and features described and their sub-combinations with one another are essential to the invention.

- Expectations -

009882/0209

Claims (7)

Patent claims ti./Flüssigkeitsgefüllter magnetic compass with a bearing part which is longitudinally displaceable against spring force and which carries the axis of rotation of the movable system, characterized in that an additional coarse bearing is provided in the form of mutually supporting parts of the movable system and the compass housing, so that the weight of the movable system is greater as the counterforce of the spring supporting the longitudinally displaceable bearing part with a displacement path of such a length that the parts of the coarse bearing are not yet supported on each other, and that this counterforce of the spring is in turn greater than the difference between the weight of the movable system minus its buoyancy force at with Compass filled with liquid. 2. Magnetic compass according to claim 1, characterized in that the movable bearing part (fine bearing) as a stone bearing is trained. 3. Magnetic compass according to claim 1, or claims 1 and 2, characterized in that the maximum possible distance between the two bearing parts of the coarse bearing in the longitudinal direction the axis of rotation is matched to the maximum possible spring deflection. 4. Magnetic compass according to one or more of claims 1-3, characterized in that the coarse bearing and the fine bearing are provided with conical bearing surfaces. - 2 009 882/0209 5. Magnetic compass according to claim 4, characterized in that when the fine bearing is unloaded, the conical surfaces of both bearings about merge into each other. 6. Magnetic compass according to claim 5, characterized in that the conical surface of the coarse bearing is in a corresponding The conical surface of the compass housing continues. 7. Magnetic compass according to one or more of claims 1-5, characterized in that the fine bearing is designed as a perforated stone or perforated stone cover bearing. 009882/0209 Blank page