DE300843C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

■ - ■■■■■■■ - JVe 300843 - CLASS 49 b. GROUP

Patented in the German Empire on January 4, 1916.

The magnetic chucks used up to now are based on this point of view from achieving a good magnetic effect in that the magnetic poles in the clamping surface are chosen to be as large as possible and the columns arranged between the poles are as small as possible. It should such a low magnetic resistance can be achieved. However, these foods are suitable only good for clamping relatively thick parts. If, however, parts of z. B. ι to 3 mm thickness on the plate tense, it turns out that these pieces are not fixed enough to allow processing to allow. The following invention is intended to also allow such thin parts to be clamped allow sufficient strength. The cause of the diminished strength lies in that in the case of thin parts the

ao occurring line of force flow is limited by the cross section of the work piece, and one must therefore, in order to achieve higher load-bearing capacities, the transition cross-section from the pole to the Select the work piece as small as possible in order to minimize the induction at the point of contact bring up. The invention consists in that the pole faces, d. H. the one made of magnetic Material existing part of the clamping surface compared to the previously usual is extremely reduced, to the extent that that part of the mounting surface which consists of magnetic material is not larger, but even smaller than that Part that is made of non-magnetic material.

In Fig. Ι an embodiment of the clamping plate of such a chuck is shown in plan, and in Fig. 2 in cross section according to aa. The north and south poles are usually arranged alternately; but they are narrower than the space between the poles, which is filled with non-magnetic material. N should mean North Pole, S South Pole. The black areas represent the magnetic material, the white areas in between the non-magnetic material.

In the form shown in FIG. 1, with the small pole width, the force line current occurring between the gaps is still quite large in relation to that which passes into the workpiece. In order to avoid this disadvantage, the concentration of the current entering the work piece can be achieved with wider pole pieces, that is to say with more favorable dispersion, if the clamping plate is designed according to FIGS. 3 and 4. Fig. 3 is the plan view, Fig. 4 is the cross section according to bb. This design is characterized in that not the full cross-sectional area of the magnetic pole is led into the actual clamping surface, but only part of it, so that in the actual clamping surface of each pole only two narrow strips with non-magnetic material in between appear, in other words , In each north or south pole grooves are incorporated in order to reduce the effective magnetic cross-section in the clamping surface. In FIGS. 5 and 6, a similar embodiment is shown with grooves machined into the pole, which run in the transverse direction to the pole, namely FIG. 5 shows the top view, and FIG

6 shows the section according to cc. Fig. 7 illustrates an embodiment in which the pole face is divided in the longitudinal direction and in the transverse direction so that the magnetic cross section in the clamping face is formed by small rectangles; between which again non-magnetic material is arranged. The non-magnetic material does not necessarily have to consist of metal, but any kind of potting compound or finally air can be used. It is also not necessary that individual pole pieces are provided with strips, or that strips are produced on the pole pieces by incorporated grooves, but the same effect can also be achieved by combining suitably shaped pole pieces, as shown in FIG. 8, which figure the cross-section, corresponding to FIG. 4, illustrates when the poles are assembled from individual pieces.

Claims (2)

Patent-to sayings: 1. Magnetic chuck for thin-walled workpieces, thus identifiable shows that that part of the clamping surface, which consists of non-magnetic material, is larger than that of magnetic Material existing. 2. Magnetic chuck for clamping thin-walled workpieces Claim 1, characterized in that the individual poles are provided with grooves or are composed of individual pieces in such a way that only a part of their full Cross-section appears in the clamping surface. 1 sheet of drawings.