DE226153C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 35 b. GROUP

in FRANKFURT a. M.

Patented in the German Empire on July 2nd, 1909.

Instead of the old mechanically working gripping and scooping devices, one turns Recently, many magnets have been attached to the goods to be lifted and transported in well-known Dress up wisely. Such devices are extremely convenient; their general However, there are a number of disadvantages to its use. It is required at that Goods to be transported hanging on the magnet

ίο by any mechanical devices again to secure against falling, since the current of the lifting magnet through some external influences can be interrupted, thereby easily causing accidents will. A second drawback of the lifting magnets is that their capacity is too small in relation to its size, especially when lifting chips, scrap and the like.

Attempts have been made to circumvent this by working in conjunction with the heavy hoist arranged smaller lifting magnets of lower load-bearing capacity that only be able to carry a small part of the total load and by moving back and forth frequently load the crane. The functioning of these magnets is the same as that of ordinary ones Lifting magnets, d. H. they can be swiveled out and lower to intervene of the goods and are around a possibly movable, outside of the magnets Point freely suspended.

The above-described disadvantages of the lifting magnets in use up to now are eliminated by the present invention.

According to the invention, the goods to be conveyed are gripped magnetically and by mechanically supported by the magnet or by one or more rotatable magnets gripped magnetically and placed on a special support device.

In the drawing, the subject matter of the invention is based on some exemplary embodiments illustrated.

Fig. Ι and 2 show a lifting magnet rotatably arranged in a mobile bracket.

Fig. 3 and 4 show a rotatable magnet with protective device in the lifting and driving position.

5 and 6 show a magnet for loading rods, pipes and the like in Connection to the bogie.

Figs. 7 and 8 show a rotatable magnet for lifting metal sheets at the same time Connection with a suitable support device.

Fig. 9 shows the design of a magnet according to the present invention as Ladle magnet.

Fig. 10 shows a multi-pole magnet in a similar arrangement.

According to the present invention, the magnets used are rotatable

arranged and are expediently balanced. The type of suspension of these rotatable magnets is irrelevant. The axis of the magnet α shown in FIG. 2 is carried, for example, in a suitable suspension bracket which can be moved as desired. In order to clearly prevent the rotation of the lifting magnet in this bracket. Illustrative, a handle for turning is placed on the axis of the magnet in the drawing. This hand turning device is expediently replaced by a machine turning device in larger systems, and a motor sitting on the axis of the magnet, for example, would be suitable for this purpose.

The mode of operation of the rotatable magnets according to the present invention can be seen from the figures without further ado. The lifting magnet is just as freely movable as it was before in use, non-rotating magnets and can therefore anywhere in the room be guided. He is accordingly according to FIGS. 3, 5 and 7 on the goods to be lifted and then rotated into the positions of FIGS. 4, 6, 8 corresponding to the above figures. According to Fig. 4, the load is mechanically based on the now upwardly directed Gripping surface so that the magnet can be further excited or switched off as required. In the latter case, it is advisable to arrange a protective cage around the magnet, in order to prevent part of the load from falling, as shown in FIG Figure is indicated. This protective cage makes the rotation of the magnet inevitably with and can be arranged so that it steps back when gripping the magnet.

But it is by no means necessary ^{to turn the magnet body by 180 c} so that its gripping surface becomes a pure support surface. According to FIGS. 5 and 6, the rotation takes place through a larger angle. The lifted goods can slide into the angle formed by the magnet and chair support frame. It is only necessary to fix the magnet in this position, for example by some kind of locking device, in order to be able to convey the goods further with the greatest possible safety. Such an arrangement and mode of operation of the rotatable magnet would be particularly advantageous when lifting and moving rods, pipes and the like be grasped and lifted.

A somewhat different embodiment is shown in FIGS. 7 and 8. The magnet is here connected to a support device that allows him to lift and move sheet metal makes it particularly suitable. The function of the magnet is exactly the same again. However, in this type of application it is only a little more than a rotary movement go ° ■ required to lift the sheet after rotation and power interruption to support suitable for further movement.

If the axis of rotation of the magnet is arranged opposite the magnet or its supporting or bearing surfaces in such a way that the center of gravity of the entire system (magnet and load) shifts when the load is grasped, the loaded magnet can be given a righting moment, such as that the support surfaces of the magnet swivel automatically into the required for the support layer, said caused thereby rotational movement of the support surfaces can be nearly 90 ⁰ slightly by hand or by means of counterweights and. the like. in a rotation transferred over 90 ⁰ (Fig. 8). '

Another possibility for using the rotatable lifting magnet according to the present invention is given in the following two figures. The two embodiments shown for example in FIGS. 9 and 10 can be referred to as scoop magnets. The magnet b according to FIG. 9 rotates centrically or eccentrically about its axis of rotation, grabs the material to be lifted by attraction, here for example profile iron, and deposits it as a result of its rotational movement in a suitable support device arranged on the bogie. After several rotations, which, depending on the nature of the magnet, can take place quickly one after the other, the crane is fully loaded and can carry out its main movement. In this way it is possible to make the magnet significantly weaker than the crane operated by it.

A magnet or a magnet roller according to the present invention can also, as illustrated in FIG. 10, be implemented very well with multiple poles, whereby the advantage just mentioned, namely the use of a smaller magnet, becomes even more apparent. The four-pole magnet c shown in FIG. 10 is used to quickly lift metal chips or scrap into a receiving tray arranged on the magnet frame or also in any desired manner. The mode of operation of the device can be easily understood from the figure.

The power supply for the rotating magnets described above can, for example done by slip rings. It has already been stated that the magnets

hung can be de-excited so that they took place after lifting the load and the Rotation to carry the load mechanically. In the embodiments according to FIGS. 9 and 10 expediently the current of that pole, which is just pushing its charge, in this one Moment automatically interrupted.

The embodiment shown in FIG. 10 of a rotating multipole magnet is', particularly suitable for loading ore for which no one has yet had a useful self-grabber.

Claims (5)

Patent Claims: i. Device for lifting or lifting and moving loads by means of rotatable Suspended magnets, characterized in that the magnets are suspended so that they can rotate about any axis are in such a way that the same after magnetic gripping of the load in such a Can be rotated position that they either provide mechanical support for the cargo with their pole faces themselves form during further transport or the same on special supporting or carrying organs hand over. 2. Embodiment according to claim 1, characterized by the use of a or a plurality of rotary magnets arranged in a bracket, in such a way that the same rotate after the item has been lifted learned so that they now have a mechanical pad for that on them hand over dormant good. 3. Embodiment according to claim 1 or 2, characterized by the use of one or more on one axis rotating scoop magnets, so that the same the goods to be transported on their Pick up Poles, take them with them as a result of their rotation and go to special stops or Pick-up devices (bowls, baskets) release or strip off, the respective The emitting pole is expediently de-energized by an interruption in the current. 4. Embodiment according to claim 1, 2 or 3, characterized by such Position of the axis of rotation of the magnet in relation to the pole and the support surface so that the center of gravity is when the load is lifted of the whole system (magnet and load) and the support surfaces automatically move into those for supporting the goods Swivel in required position. 5. Embodiment according to claim 1, 2, 3 or 4, characterized by the Use of a suitable rotatable protection device combined with the magnet, in such a way that when the magnet is gripped, it withdraws from the gripping surface after the rotation has taken place however, it completely surrounds the loaded magnet and thus the material in the mechanical Prevents onward transport from falling. 1 sheet of drawings.