NO124895B - - Google Patents

Description

Compass with rotatable compass housing.

The invention relates to compasses of the type that are often used as orientation compasses, i.e. where the compass housing is rotatably stored in an opening in a carrier plate, e.g. a ruler, so that this can be set at an arbitrary angle to the compass directions, and where the compass housing is held in place axially by means of a pair of cooperating stop surfaces which are held in a mutual friction system by means of an axially acting spring means, preferably in the form of a ring-shaped spring of wire -material or another type of flexible insert, so that the pivoting position of the compass housing in the support plate is fixed by friction at all times.

Orientation compasses of this type must always have a certain radial clearance between the compass housing and the support plate due to alternating

IN

temperature and humidity, which as a rule leads to quite a bit of slack and inaccuracy. This is particularly unfortunate when fine-tuning the compass, as the compass housing will then often just slip over to one side or the other instead of rotating.

According to the invention, these defects are remedied by the fact that the aforementioned spring-loaded interacting stop flaps are designed conically with an inward slope in the upward direction and lie on the upper side of the plate, while the spring element is absorbed in the plate's opening and acts in a downward direction on the housing. A self-centering effect is thus achieved, especially on the front of the housing,} i.e. close to the level where the setting forces are exerted, whereby even the finest adjustment will always only take the form of a pure rotary movement, as the radial play is only noticeable if you positively push the house over one of the sides. Regardless of whether the spring load is hard or soft, the setting operation will always take place smoothly and safely, and you will always have the reassuring sensation of having a real precision instrument between your fingers.

To achieve this effect, it is in and of itself indifferent in which direction the compass housing is inserted, and in other words whether the locking is effected from above or below. However, according to the invention, it is preferred to let the stop surface of the housing be designed on a special conical plating which is locked against displacement upwards in relation to the capsule of the magnetic needle. This means, in contrast to the usual mounting method, that the compass housing has to be inserted from below and the locking is visible on the upper side instead of being hidden as usual. This simple unorthodox device will make mounting and dismounting particularly easy and, despite the fact that the locking will be visible, will not need to appear unsightly at all. On the contrary, e.g. the use of a conical plating of aluminum with gradation in connection with a locking ring e.g. of nysolv could give a particularly solid appearance in combination with a magnetic needle capsule and a carrier plate which is usually made of plastic.

If a locking ring is used in the usual way, as mentioned, inserted into a groove in the magnetic needle housing, it is preferred to form the groove in connection with the joining of the upper and lower parts of the magnetic needle capsule, whereby these can be produced in simple pressing operations without the need to use complicated pressing tools or perform a special turning operation foi providing the groove.

A simplified embodiment of the invention is shown in the drawing. j

Fig. 1 is a side view of the compass in the assembled state.

Fig. 2 is a ground plan of the carrier plate.

Fig. 3 shows on a larger scale a cross-section of the compass i" et

plane through the needle salmon.

Fig. 4 shows the parts of the compass pulled apart, i.e. i

the form in which they are mounted, and with the carrier plate in axial longitudinal section.

Fig. 5 shows an axial section of the upper and lower parts of the compass housing

for the joining of these.

In the drawing, 1 denotes the magnetic needle capsule, which is intended to be extended

in plastic in the usual way and transparent, at least for the upper part, as well as with the compass lines marked at the bottom, while 2 denotes the support plate, which here in the usual way has the shape of a ruler and is also intended to be made of plastic. In addition to the capsule 1, the compass housing includes a con-

ice plating.7 which slopes downwards in the outward direction from the capsule and is held in place against displacement upwards in relation to this by means of a stop ring 9 inserted in a circumferential groove 10 in the capsule. The ring 7 is held with its underside in a friction system against a corresponding conical surface 8 on the ruler 2 at the edge of the opening 3, which the capsule 1 is in-

inserted from the bottom. The necessary contact pressure between the conical surfaces is provided by an annular spring 6, which in the embodiment shown on

known way consists of a wave-shaped thread, e.g. of bronze, and is in-

placed between a rear-facing ledge in the opening 3 and a circumferential flange at the lower edge of the capsule 1. The plating 7 can suitably be provided with graduations for angular adjustment of the ruler 2 and be secured against rotation in relation to the capsule 1 by not shown teeth, knobs or the like. The stop ring 9 can be crimped or be

split as indicated in fig. 4, and attached under suspension.

The groove for receiving the stop ring 9 is conveniently provided

in that the upper and lower parts of the capsule respectively 11 and 12 as shown on

fig. 5 has mutually centering ledges at the edges facing each other, and the outward facing ledge (on the lower part 12) is made so high that an external groove is left when the two parts are glued together.

After the magnetic needle capsule has thus been produced complete with in-

placed magnetic needle and possibly filled with liquid, the installation of the compass takes place in a way that is best visualized in fig. 4. The capsule is inserted from below into the ruler 2 while inserting the spring 6, after which the plate

the ring 7 is pressed down into place from above and finally locked with a locking

the ring 9.

It will thus be seen that the installation is extremely simple and easy. The same applies to dismounting, especially if the locking ring 9 is attached under suspension as mentioned, since one only needs to loosen this easily accessible ring to be able to take the compass apart. You will thus also be able to easily change the ruler, e.g. to be able to use different length scales corresponding to different map scales. Furthermore, the matching conical surfaces on the compass housing and ruler will bring about the favorable centering effect mentioned at the beginning during use, and the compass as a whole can have an attractive, solid appearance. Finally, the compass can be assembled from a small number of individual parts that are cheap to manufacture, especially since no special operations are required to provide undercut surfaces and the parts can be produced with simple tools and without observing tight tolerances, without there being therefore a risk of slackness or clamping.

Claims (4)

1. Compass with a compass housing which is rotatably stored in an opening (3) in a carrier plate (2), e.g. a ruler, and is held in place by means of a pair of cooperating stop surfaces which are held in mutual friction by means of an axially acting spring member (6), characterized in that the cooperating stop surfaces are designed conically with an inward slope in an upward direction and are located on the upper side of the plate" (2), while the spring member (6) is absorbed in the plate's opening (3) and acts in a downward direction on the housing. 2. Compass as specified in claim 1, characterized in that the stop surface of the housing is designed on a special conical plating (7) which is locked against displacement upwards in relation to the magnetic needle capsule (1). in 3. Compass as specified in claim 2, [characterized in that the locking of the plating ring (7) against upward displacement is effected by a locking ring (9) which is embedded in a circular groove formed in the magnetic needle capsule (l) by joining its upper and lower parts ( 11 and 12 respectively). in 4. Compass as stated in claim 2 or 3>characterized in that a ring-shaped spring member (6) known in and of itself to cause the spring load acts against a yoke flange at the lower edge of the magnetic needle capsule (l)..