DE1877235U - MAGNETIC SCALE. - Google Patents

Description

P.A. 525 025 * 8/19/61

Patent and sample utility "M a g η e t w a a g e" t

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Description '"^"

Today's scales are usually based on either gravity or on the spring force. Both types have their areas of application ^ ;, whereas the spring balance generally has the "advantage" over the power balance has that it can be carried out relatively cheaply. she has but the disadvantage that to guide the carrier of the material to be weighed and for the display, all possible devices must be used which, due to their unavoidable friction, falsify or render the weight display inaccurate. But if you now use the magnetic force as a counterforce instead of the spring force used for the weight to be determined, you can build a scale that contains practically no abrasive components. One can for the repelling magnets both excited by an electric current « as well as permanent magnets.

The high coercive force in particular, the resistance of modern magnetic material, in particular of the ferrite magnets, allow to form the magnetic properties of appropriately shaped magnetic body so that a nearly smooth ⁷ working scale thus can create. Even the display device can be made smooth by a light beam.

The present invention relates to the creation of such Scales, their weight carriers and their brackets completely or almost completely can be kept floating. The balance is essentially based on the repulsion of two magnetized surfaces in the same direction. The shaping of the surfaces is expediently done in such a way that the display, if not £ fänz- so but can be approximately linear, logarithmic or quadratic. The display can either be fixed in place directly with the movable file Connected pointer, which runs up and down on a scale and shows the weight. Or a light mark display in which the moving part a small mirror, possibly a small concave mirror, is attached, which is widely illuminated by a light source. By moving this mirror up and down, the radiation angle is changed and thus almost arbitrarily enlarged with a correspondingly longer light pointer, so that a very accurate display can be achieved.

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A large area for such scales would be, for example, commercial or merchant scales ^ with which weights in the order of 1 to 10 kg can be weighed. These scales have the gate part that small weights very much are displayed exactly, while with larger weights the percentage portion is weighed just as precisely, but the absolute portion is smaller. The main advantage of this scale would be the low price, because there is no storage and transmission with joints, bearings, etc. or only light pointer devices can be set in motion whose motive force is small in relation to the sweeping force.

Another area would be, for example, letter scales, which are used as magnetic scales can be produced extremely cheaply.

The magnetism of the repelling magnets does not make itself uncomfortable on the outside To have an effect, it is advisable to install the magnets in a sheet metal housing as a shield. This bleeh housing can of course be the same can be used as a construction element to assemble the balance.

Since the scale has only a few moving parts, it is very simple and cheap to create.

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Fig, I shows a cross-sectional sketch of such a magnetic balance. In it is 1 a base plate made of wood, plastic or some other non-magnetic material, 2 the base magnet, which is on the base plate in any Way, e.g. by gluing. In the middle of the base plate and also the magnet is expediently a guide column 3 perpendicular appropriate. Above the base magnet 2 and around the pillar-J hangs or, if a second magnet floats, it is magnetized in such a way that it has the same name Poles of the base magnet and this magnet lie against each other and see repel in the known way. In the example of Fig. I, the Uordpole are drawn opposite each other. On the magnet 4 is ^ by means of pillars 5 a weighing pan 6 attached, TJm external influences on the magnets 2 and 4 as well as shielding the influences of the magnets from the outside, there is a shielding jacket 7 made of soft magnetic material, e.g. soft iron sheet, around them. which is attached to the base plate 1 in a suitable manner «On one A pointer 8 is attached to the pillars of the weighing pan, which is on a scale 9 shows the weight. Instead of this pointer 8 could for better display a light pointer device can also be used, but this is not the case here is shown.

The magnets 2 and 4 could also be designed in a different shape. Fig. II shows as an example the design of the two magnets in a conical shape Shape. There are again 2 the basic magnet and 4 the moving, floating one Magnet,

Claims (3)

PA 525 025 * 8/19/61 Iγ s prüche 1) Magnetic balance, characterized in that the Eezipient for the to be weighed Is well connected to a magnetized body, and that it is completely or almost free-floating in another magnetic field is held, and through this comes into equilibrium. 2) magnetic balance according to claim 1, characterized in that it is at one or "two magnetized bodies around permanent magnetic bodies acts. 3) magnetic balance according to claim 1, characterized in that the magnet and the magnetic field can be formed by electromagnets.