CZ24690U1 - Rotor body for magnetic lifting device - Google Patents

Description

Rotor housing for magnetic lifting device

Technical field

The technical solution relates to a rotor body for lifting magnetic devices with permanent magnets.

BACKGROUND OF THE INVENTION

Known embodiments of the rotor body in the lifting magnets are designed as a weldment consisting of two flat magnetically soft materials between which a gap is inserted for the insertion of permanent magnets. These materials are welded to the two ends that form the front and rear ends of the rotor body, which ends are made of stainless material that is magnetically nonconductive. These ends are supported by bearings in the stator. This is a very good solution in terms of magnetic properties, but it is laborious and expensive to manufacture

From EP 1 003 625 (WO 0019990656 A1), a rotor body solution is known which is made of one piece of magnetically soft material. A through groove for insertion of permanent magnets is formed into the cylindrical rotor body. The rotor must be mounted to place the magnets on an appropriate support to ensure that the magnets are positioned correctly. These magnets must be properly secured in the rotor either by gluing or potting, while ensuring the lower part of the groove against leakage of the sealing compound. Although measures are taken to keep the encapsulant out of the groove as little as possible, it will not be possible to ensure that there is no leakage of the material, so that overflows of the material or adhesive must subsequently be removed.

The essence of the technical solution

The above-mentioned disadvantages of known rotor body solutions largely eliminate the rotor body according to the invention, which is formed as a monoblock of magnetically conductive material and consists of a cylindrical part fitted with a first cylindrical part and a second cylindrical part. The principle of the invention consists in that in the cylindrical part of the body at least one impassable groove is formed with the bottom and side walls (pocket), whereby a recess is formed between the end walls of the cylindrical part of the body and the first and second cylindrical parts. In order to improve the magnetic flux of the permanent magnets of the rotor, it is advantageous to create a flattening on the outer cylindrical part of the body in the bottom part of the blind groove along its entire length and width. The wall thickness of the bottom and side walls of the impassable groove and the groove dimensions are chosen according to the performance parameters and the dimensions of the rotor.

The advantages of the technical solution are simplicity of production and cost savings in the production of the rotor, fixed and stable fixation of permanent magnets of the rotor in the impassable groove of the stator, use of liquid encapsulating materials without any further use of jigs or molds.

Clarification of drawings

The technical solution is explained in more detail in the attached drawings, which show:

Fig. 1 is a perspective view of the rotor body with a through slot; Fig. 2 is a rear view of the rotor body; Fig. 3 is a section AA taken along Fig. 2; Fig. 4 is a perspective view of the permanent magnet rotor body; Fig. 5 shows a rear view of the rotor body shown in Fig. 4; Fig. 6 shows a section BB taken along Fig. 5; Fig. 7 shows a rear view of the rotor body where the wall of the cylindrical part against the impassable; the groove is flattened, FIG. 8 shows a section CC taken along the line of FIG. 6.

-1 CZ 24690 U1

Examples of implementation

The rotor body 1 for the lifting magnetic devices is formed as a monoblock of one piece of magnetically soft material. The body 1 consists of a cylindrical part 1.1. In the cylindrical part 1.1 of the body 1 there is formed at least one 5 impassable groove 4 with a bottom 4.1 and side walls 4.2 (pocket). Permanent magnets 5, which are fixed in this groove 2 against being dislodged by the potting compound (FIG. 4), are housed in the blind groove 4. These permanent magnets 5 are aligned against the stator permanent magnets (not shown) of the magnetic lifting device. The bottom wall thickness 4.1 and the side wall thickness A2 of the impermeable groove 4 are chosen according to the performance parameters and the dimensions of the rotor (magnetic lifting device), these wall thicknesses having as little effect on the resulting magnetic field of the rotor 10 as possible. rotor body 1 parameters.

The cylindrical part 1.1 of the rotor body 1, as mentioned above, is provided with a first cylindrical part 2 and a second cylindrical part 3, which extend outside the magnetic field formed between the permanent magnets 5 of the rotor and the permanent magnets not shown. The two parts 2, 3 are fitted with bearings (not shown) which are housed in the stator housing of the magnetic lifting device. A second cylindrical part 3 is associated with a cylindrical part 4 with a through hole 8 through which the control lever of the magnetic lifting device (not shown) is guided.

In order not to affect the resulting magnetic flux of the permanent magnets 5 of the rotor, a groove 6 is formed between the end walls 1.2 of the cylindrical part 1.1 of the body 1 and the first and second cylindrical parts 2, 3 (FIGS. 2, 5 and 7). The diameter and width of the recess 6 is chosen with respect to the performance parameters and dimensions of the rotor, and it is advantageous to minimize these dimensions. These recesses 6 form the magnetic field of the rotor so that they do not appear at the ends 2, 3 and 4 which come out of the lifting magnet and thus make these ends magnetically inactive while short-circuiting the magnetic flux of the rotor. The groove 4 (pocket) formed in the cylindrical portion 1.1 of the rotor body 1 forms a 25 enclosed space which allows the use of liquid encapsulating materials without any further use of formulations or molds to prevent the embedding of the encapsulating material without the subsequent processing of overflow.

In order to improve the magnetic flux of the permanent magnets of the rotor, a flattening 7 is formed on the outer cylindrical part 1.1 of the body 1 in the bottom part 4.1 along the entire length and width of the groove 4 (FIGS. 7 and 8).

PROTECTION REQUIREMENTS

Claims (3)

A rotor body for a lifting magnetic device is formed as a monoblock of magnetically conductive material and consists of a cylindrical part (1.1) fitted with a first cylindrical part (2) and a second cylindrical part (3), characterized in that in the cylindrical part (1.1) of the body 1 there is formed at least one impassable groove (4) with the bottom (4.1) and side walls (4.2), where A recess (6) is formed by the walls (1.2) of the cylindrical part (1.1) of the body (1) and the first and second cylindrical parts (2, 3). Body according to claim 1, characterized in that a flattening (7) is formed on the outer cylindrical part (1.1) of the body (1) in the bottom part (4.1) along the entire length and width of the groove (4). Body according to claims 1 and 2, characterized in that the thickness of the bottom wall (4.1) and the 40 side walls (4.2) of the impassable groove (4) and the groove dimensions (6) are chosen according to the performance parameters and the rotor dimensions.