DE1296285B - Permanent magnet arrangement with temperature compensation - Google Patents

Description

The invention relates to a permanent magnet arrangement with temperature compensation, in which parts made of permanent magnetic material are arranged in a magnetic circuit are, in front of whose end faces sit pole shoes, between which a working air gap is formed, and at which temperature-related changes in the properties of the permanent magnetic material compensated by corresponding changes in the air gap length will. Since the permanent magnet materials have a negative temperature coefficient of their have magnetic properties must to keep the magnetic field strength constant in the working air gap, the length of the same can be reduced with increasing temperature.

In a known arrangement of this type (German Auslegeschrift 1036 415) an H-shaped yoke is provided, the crosspiece of which is weakened at one point is so that the two legs of the H-shaped yoke can be pivoted against each other are. This pivoting is achieved by a between the short parts of the legs attached expansion body causes. If the temperature rises, the long ones go Parts of the thighs come together; when the temperature drops, they separate. The two actual magnetic bodies sit on the long parts of the two legs, which form the air gap between them. Such an arrangement is only for relative Weak fields with relatively small magnetic bodies can be used because otherwise they are too bulky will. It can only be used in cases where there is a need for homogeneity The requirements of the generated field are not too great. The one at one Temperature change occurring change in the air gap width occurs namely at the known arrangement not evenly over the entire air gap, but the Pole faces, d. H. the end faces of the magnet bodies that delimit the air gap, are pivoted against each other. For the highest demands on homogeneity of the generated field, it is just essential that the pole faces are flat and are parallel with high accuracy. Pole shoes that also ensure the homogeneity of the would promote generated field, are not available in the prior art arrangement and would not eliminate the deficiencies outlined above. For the generation very strong and extremely homogeneous magnetic fields, such as those used for nuclear magnetic resonance measurements required, the previously known arrangement would therefore not be useful.

In contrast, the invention is based on the object of a permanent magnet arrangement with temperature compensation to create that for the generation very strong and / or extremely homogeneous magnetic fields is suitable.

According to the invention this is achieved in that the pole shoes for temperature compensation separated from the permanent magnetic parts by expansion bodies at a small distance are held in front of their faces.

In an arrangement according to the invention, upon temperature changes not the permanent magnets, but only the pole pieces moved. Therefore, the arrangement be made compact and with relatively large permanent magnet bodies. Also stays the parallelism of the pole faces, which is important for field homogeneity, is preserved. The inventive Arrangement is therefore, in contrast to the previously known, to generate strong and suitable for very homogeneous magnetic fields. The invention can be embodied in the manner are that two cylindrical, permanent magnetic parts are coaxially arranged and are enclosed by a housing which forms the magnetic return path, and that between these parts, the pole shoes by serving as expansion body rotating hollow body are held, which expand in the axial direction outwards and over the ends of the permanent magnetic parts grip and those at their outer ends on Housing are attached and wear the pole pieces at their inner ends. For adjustment of the pole pieces can each rotational hollow body by a three-point support on three be held by screws adjustable wedges. In addition, the pole pieces radially adjustable on the rotating hollow bodies by means of radially extending screws be attached.

An embodiment of the invention is referred to below described on the drawing, which is a section through an inventive Represents permanent magnet arrangement.

The arrangement shown has a pair of permanent magnets 1, those formed in one of two halves 2 and held together by flanges 3 Housing are mounted. This case is made of a magnetic material, so that it forms part of the magnetic circuit of the two magnets. Every magnet 1 has a pole piece 4, and these form the working air gap between them the arrangement.

Each pole shoe 4 is held at a small distance from the end face of the associated magnet 1 by means of a support body 7, which is designed as a rotary hollow body with a narrow and a wide end. The narrow end of the part 7 carries the pole piece 4, while the wide end is attached to the housing 2 .

In a special embodiment, the housing 2 is made of cast iron, the pole shoes 4 are made of a cobalt-iron alloy with 50% cobalt, and the support bodies 7 are made of aluminum. Since the coefficient of thermal expansion of the aluminum body 7 is greater than that of cast iron, the length of the working air gap is reduced as the temperature rises. The two magnets 1 are made of a cobalt-nickel-aluminum-copper alloy, which also has a higher coefficient of thermal expansion than the cast iron of the housing 2. Therefore, the air gaps between the magnets and the pole pieces tend to decrease as the temperature rises, which supports the necessary compensation.

So that the pole pieces 4 can be aligned precisely to one another and thus a correct parallelism and concentricity of the air gap between the pole pieces 4 and the air gap between each pole piece and its magnet 1 is guaranteed, each of the two hollow rotating bodies 7 is adjustable, with the help of three Screws 11 which are offset from one another by 120 ° on the circumference of the housing, so that a three-point support is obtained. Each screw has a tapered end 12 which acts as a wedge and pushes the tube 7 towards the other tube when the screw is screwed in. If all three screws are adjusted by the same amount, an axial adjustment of the support body 7 is obtained, while the adjustment of a single screw leads to a tilting movement of the pole piece 4. In order to enable adjustment in the transverse direction, three further screws 13 are provided on each of the pole pieces 4, each also offset by 120 °, which must be adjusted together in order to effect smaller radial adjustments of the pole piece 4.

Claims (4)

Claims: 1. Permanent magnet arrangement with temperature compensation, in which parts made of permanent magnetic material are arranged in a magnetic circuit, in front of whose end faces are pole shoes, between which a working air gap is formed and in which temperature-related changes in the properties of the permanent magnetic material are compensated for by corresponding changes in the air gap length , characterized in that the pole shoes (4) for temperature compensation by expansion bodies (7) are kept separated from the permanent magnetic parts (1) at a small distance in front of their end faces. 2. Permanent magnet arrangement according to claim 1, characterized in that two cylindrical permanent magnetic parts (1) are coaxially arranged and enclosed by a housing (2) which forms the magnetic yoke, and that between these parts, the pole shoes (4) serving as an expansion body Rotational hollow bodies (7) are held, which expand in the axial direction outwards and reach over the ends of the permanent magnetic parts (1) and which are attached at their outer ends to the housing (2) and at their inner ends the pole shoes (4) wear. 3. Permanent magnet arrangement according to claim 2, characterized in that each rotary hollow body (7) is held by a three-point support on three of screws (11) adjustable wedges (12). 4. Permanent magnet arrangement according to claim 3, characterized in that the pole shoes (4) are attached to the rotating bodies (7 ) in a radially adjustable manner by means of radially extending screws (13).