DE976120C - Magnetic device for displaying the altitude of a swimmer or float from a space closed on all sides to the outside - Google Patents

Description

Magnetic device for displaying the altitude of a swimmer or float from a space closed on all sides to the outside magnetic Devices for displaying a liquid level or the level of another Body within an enclosed space to the outside are well known. The most famous of these are such that one is on the extension of a swimmer seated magnet body takes along a magnet seated on the outside on a lever and so indicates the level of the swimmer.

But since the swimmer within the indicator tube is always a straight line Movement makes while the movement of the indicator lever is radial, it never is possible to fully capture the entire movement of the swimmer. This ttbelstande one has tried to counteract by having the swimmer firmly guided and within the indicator tube is a spiral-shaped slotted tube due to the up and down movement of the float transformed into a rotating one.

This rotating movement is transmitted to the outside by two magnets. The disadvantage of this device is that, firstly, the float body is fixed and is not rotatably guided and, secondly, that the float body by cams etc. must put the slotted tube in a rotating motion. Apart from However, the winding of the considerable forces necessary for this can also cause contamination the internal mechanism is disrupted by the medium or mechanical inhibitions.

Another form, the rectilinear movement of the measuring float into a rotating too change is that around the measuring tube a spiral bent iron tape, which is mounted centrally over the measuring tube. Emotional If you now move a magnet up and down inside the measuring tube, the iron spiral becomes set in a rotating motion. But since the spiral has a very large slope must have and is very light and is particularly suitable for conical measuring tubes At the top, the magnetic coupling forces are more and more removed from the magnet very weak, so that reliable work is not guaranteed. No way suffice the forces occurring here z. B. to drive a remote transmitter.

One also already has a bar magnet that can be moved up and down in a tube with one at the side, about an axis parallel to the axis of the bar magnet rotatable horseshoe magnet coupled so that the poles of the bar magnet each opposite poles of the horseshoe magnet and the horseshoe magnet is designed so that it consists of two parallel, oblique to the axis of movement of the bar magnet and plates standing on its own axis, which at the poles become lamellas are slit, which are bent out of the plane of the plate in a spiral shape, so that the horseshoe magnet moves up and down with the spiral Poland rotates around its axis. The coupling is only weak because it is more magnetic Field the bar magnet is attracted on one side, so that it touches the pipe wall and is inhibited in its movement. The clutch force available in this way is sufficient not to z. B. to operate writing works and remote transmission equipment.

The present invention has the disadvantages of the known transmission systems. avoided and is due to the special arrangement of the magnets both inside and A secure and strong magnetic connection is guaranteed outside the measuring area.

In the drawing (Fig. A to c) are the arrangement of the magnets as well the measuring device shown in an exemplary form. - -It means im individual I a non-magnetic extension tube from a closed on all sides Space in which the inner ones standing at a certain distance from each other are Clutch magnets 4, IO and II, which by means of a non-magnetic tube 3 on the Float 2 or float are attached and are in the pipe I up and down can move.

On a vertical axis 5, which is rotatably mounted at points 6 is, are on the non-magnetic retaining plates j more bent according to the radius Helical iron rods8 attached, which grip around the pipe I in pairs on both sides.

These bars are connected by a number of small magnets g in such a way that that the one rod 8 z. B. dne north, while the other rod is given a south polarity, d. that is, each spirally bent iron rod 8 forms a magnetic pole.

These four magnetic poles of the rods 8 are, as Fig. B shows, through the central magnet 4 located within the measuring tube I is connected. The magnets IO and II serve to prevent the magnetic spiral from jumping out of the field to prevent, as they have the same polarity as the outer spirals and always push them back to their old position. 12 represents the movement indicator represent.

How it works Because the polarity of the external spiral magnets that of the internal magnets is opposite, these magnets will become Connect magnetically at points I3 and 14.

When the magnet 4 is lifted by the float 2, it will leave the force field. But since the external magnets are rotatably mounted, I3, I4, and strive to restore the old disturbed force field, they will spin and restore the old state.

The path of the rotating movement depends on the pitch of the spiral dependent, so that it is possible to determine the path of the deflection from the start.

Claims (2)

PATENT CLAIMS: I. Device for displaying the altitude of a swimmer or float, in which the float or float is made in a tube Non-magnetic material is designed as a magnet and a magnetic coil is mounted rotatably about its axis lying parallel to the pipe axis, thereby characterized in that the helix consists of four parallel rods, bands or wires Parts (8) consists, of which two are located parallel to the pipe axis, one below the other are connected by a number of magnets (g) of the same polarity and which move when rotated move the helix around its axis (5) on both sides of the measuring tube (1). 2. Magnetic device according to claim I, characterized in that that besides the magnet (4) there are two other magnets (Io and I I), which are polarized so that the poles of the magnet (4) each have the opposite one Pole facing the magnets (Io and II). Publications considered: German Patent Specifications No. 515,342, 87I203; U.S. Patent No. z 260 5I6; February Bulletin I8 RC - 1952 the company Schutte and Koerting Comp., Cornwell: s Heights, USA.