DE678793C - Lifting magnet with tie rod - Google Patents

Description

Lifting magnet with tie rod The invention relates to lifting magnets, how to use them for electromagnetic operation of parts to be adjusted, such as switches, Latches and the like, used. The aim of the invention is to provide a solenoid with a short response time and to create great power with the fullest possible use of the structure of the solenoid used iron and copper.

This is achieved in that, according to the invention, one or both of them Stator poles of the rod-shaped or ring-shaped shape of the armature by widening in the anchor longitudinal extension and corresponding shortening in height relative to the Cross-section of the main part of the iron path, adapted.

As a result of this adaptation, the magnetic flux is on its The same iron cross-section is always available throughout the entire track. That way is full utilization of the work opportunity guaranteed by the middle Iron cross-section and the exciter winding dimensioned accordingly for this _ is.

There are solenoids known per se, in which the armature is designed ring-shaped. In the case of these known lifting magnets, however, is the shape of the armature and the .diesem corresponding stator poles a more or less random. In any case, an adaptation of the stator poles is necessary in these known designs to the rod-shaped or ring-shaped shape of the anchor in the sense of the present invention not given. It follows that with the known solenoid a full utilization the working possibility due to the average iron cross-section and the excitation winding is not reached.

For a more detailed explanation, reference is made to the in the drawing illustrated embodiments.

In the embodiment of Fig. I i is the stand, z on this located, only schematically indicated excitation winding and 3 the armature. It is rod-shaped here and has only a relatively small one Height. The dimensioning of the air gap and the design of the poles are adapted to this of the stand. The surfaces of the poles ja and iv delimiting the air gap are im essentially identical in content to a cross-section of the main part. of the Eisenweg, z. B. a cross section at the point indicated by dash-dotted lines ic. You can So think of the pole shape represented by the fact that the free ends of the Stand i initially of the same cross-sectional shape as the rest of the stand are compressed in the sense of widening in the direction of the longitudinal extension of the anchor 3. The advantages of the new design are as follows: The anchor has only slight in its direction of movement indicated by the arrow Height. The hub becomes small and with it the one occurring during the stroke; on the armature 3, the force exerted is great, which usually occurs when using lifting magnets Value is placed. Furthermore, the anchor has only a relatively small one Dimensions. The forces required to accelerate it are therefore small. Through the Adaptation of the stator poles ia and ib to the rod-shaped, elongated shape of the armature 3 is achieved that through the middle iron cross-section and the excitation winding conditional work opportunity is fully exploited. In other words, at Given the lifting work, the new version has compared to known versions the least amount of iron and copper.

The goal aimed at with the embodiment according to FIG. I is still ° im higher dimensions achieved with an annular design of the armature. An embodiment FIG. 2 shows this. The stand here consists of a type of thread spool trained iron body 5 and one of these and the excitation winding carried by it 6 surrounding iron cylinder 7. The cylinder 7 is with one flange of the bodyA 5 screwed and thus has a direct magnetic connection with this. At the periphery of the other flange of the iron body 5 is between this and the cylinder 7, the annular air gap to accommodate the also, designed as a ring Anchor 8 formed. The existing of a circular ring anchor 8 is of a disk 9 made of non-ferromagnetic material. This is with the aid of an axis i displaceable in an axial bore of the body 5 o Can be moved in the longitudinal direction. i i is a one attached to the cylinder 7 Lid made of non-ferromagnetic material.

In the de-energized state, the parts 8, 9 and i o take z. More colorful the inflow of a spring acting on the axis io, the position shown. If the excitation winding 6 is connected to voltage, the armature 8 is in the gap drawn into it. The dimensions will be. here as well as in the embodiment according to Fig. i chosen so that in the working position the armature almost completely clears the air gap , fills in. The parts to be adjusted with the help of the lifting magnet are immediately or coupled with the axis io via suitable intermediate links.

In the embodiment of FIG. 2 results from the use of the iron body 5 designed as a body of revolution and by laying the Air gap to the periphery of one flange of this body which is essential for the invention essential design ring of the poles or one of the poles almost by itself, how to easily taken from the drawing. The drawing also shows that the embodiment according to - Fig. 2 also for manufacturing reasons, especially because of the simplicity of its parts and ease of assembly, extremely advantageous is.

The advantages inherent in the embodiment according to FIG. 2 also become one substantial part is achieved when the air gap and also the armature 8 at some Places is interrupted so that, so the armature 8 and the associated air gap of the stator consist only of preferably symmetrically distributed ring segments would. Therefore, if here and in the claims of an annular shape of the Anchor and .des air gap is spoken, so is the aforementioned Execution also recorded. It is also clear that with the terms iron body and iron cylinder absolutely corresponding bodies made of magnetizable material are to be understood.

Claims (3)

PATENT CLAIM i. Lifting magnet with tie rod, characterized in that that one or both stator poles of the rod-shaped or annular shape of the armature by widening the longitudinal extension of the anchor and shortening it accordingly in are adapted to the height relative to the cross-section of the main part of the iron path. 2. Lifting magnet according to claim i, characterized. characterized in that the anchor is in the working position almost completely fills the air gap formed by a gap in the stator. 3. Lifting magnet according to claim i or 2, characterized in - that in the case of an annular Armature of the stator from a thread spool similar and the excitation winding (6) supporting iron body (g) and one surrounding these two parts and with one Flange of said iron body final-owning iron cylinder (7) is formed is with the formation of the air gap at the periphery of the second flange of the iron body, preferably directly between this flange and the cylinder.