DE188861C - - Google Patents

Description

IMPERIAL

PATENT OFFICE,

PATENT LETTERING

-te 188861 CLASS 35 Ö. GROUP

in NUREMBERG.

Lifting magnet. Patented in the German Empire on August 28, 1906.

In the known lifting magnets, which are suspended in this way by means of ropes, chains or the like are that you can adjust or turn in any direction, the magnet is with its upper end attached to the support means and is therefore in a stable equilibrium position. As soon as such magnets either as a result of the inclined surface of the load, or when the latter is inclined, are rotated from their vertical position, not only the weight of the load has an effect on them, but also there is an additional edge load on the magnets, as the point of application of the central force the the. Load-bearing magnetic forces no longer in the direction of the suspension device is and accordingly a torque arises which tends to tear the magnet from the load, so that this easily can fall down.

In order to avoid this disadvantage, according to the present invention, the magnet is close its wing suspended unstably, so that regardless of the setting of the magnet the direction of the tensile force of the suspension element through the point of application of the magnetic Medium force or almost through it. Such a lifting magnet is shown in the drawing illustrated in FIGS. 1 to 3 in three different exemplary embodiments.

The core α of the magnet b is (Fig. I) surrounded by the wire windings c through which the electric current is conducted. The magnet is connected to the suspension bracket d by means of a support rod e , which at its lower end carries the ball / lying in a recess in the magnet. The magnet rests on this with a corresponding recess, while the Tr.agstange e passes through a funnel-shaped opening g of the magnet, so that the magnet can rotate in any direction on the ball, which is limited by the wall of the funnel-shaped cavity g. The pivot point of the magnet, which is held in the manner of a ball joint, coincides with the center of the sphere. Since the center of gravity of the magnet is above the latter, it is suspended unstably. As a result, the magnet can be easily rotated, which is greater, the lower its pivot point is.

The embodiment according to FIG. 2 differs from that according to FIG. 1 in that instead of the solid ball / a spherical section i is attached to the support rod e. As a result of this arrangement, it is possible to move the fulcrum k of the magnet, as the figure shows, down to the lower surface of the magnet.

According to Fig. 3, the ball joint is replaced by a universal joint. Here the magnet b hangs by means of a pin η in a · ring /; which in turn is rotatably suspended in the bracket m by means of pin 0.

Claims (3)

Patent Claims: I ₁ lifting magnet, characterized in that the magnet (b) is unstably suspended from a suspension element so that it can rotate in any direction, so that the setting of the magnet independently or almost independently according to the surface of the load can take place on the direction and position of the tensile force of the suspension element. 2. Lifting magnet according to claim i, characterized in that the magnet (b) is connected to the mounting bracket (d) by means of a ball joint. 3. Lifting magnet according to claim 1, characterized in that the magnet (b) is suspended from the support bracket (d) by means of a universal joint. 1 sheet of drawings.