DE3526352C2 - - Google Patents

Description

The invention relates to a mutual device non-positive spacing and / or support according to generic generic term of the main claim. Such Facility is from the report of the "National Accelerator La boratory ", USA, No.TM 334A, 27 91,000 dated December 10, 1971 with the Title "The Heim Column" known.

With superconducting magnet arrangements is often inside a vacuum at room temperature of around 300 K or outer housing arranged a winding housing in which at least one superconducting magnet winding to be frozen located. This winding housing is thus also on the To cool low temperature and is therefore often used as Helium housing. For thermal reasons is between the outer and the winding housing often at least a radiation protection shield is provided, which is generally based on Temperatures between about 40 K and 100 K is maintained. For such a structure are spacers directions required, via which, if possible, ge rings of heat are transferred to the cryogenic components should. For the interpretation of a corresponding spacing In addition to the existing weight, the furnishings parts still often take dynamic components into account.

Due to these requirements, various train or supporting elements used, different work fabrics, e.g. B. 18/8 CrNi steel, titanium or glass fiber reinforced Plastics. Accordingly, it consists of  known spacing device known in the introduction tion of several support elements between the outer housing and the winding housing in particular a superconducting Arrange magnets. It contains three against each other mutually enclosing tubular parts, the outer, on the outer casing and the inner pipe on the wick tube made of glass fiber reinforced art consist of fabric. These two pipes are not on theirs ends of the housing parts from the middle tube Aluminum rigidly connected. By using it of these materials with different coefficients of expansion or different stretching behavior and due to a appropriate dimensioning of the individual pipe lengths can then achieved that both in the case of assembly at room temperature of the entire structure including the winding housing as always in the operating case at low temperature of this housing a positive and non-positive connection about appropriate spacing directions between the outer and the winding housing guarantee is. The structure and manageability of the be Known spacing devices are, however, proportionate complex.

From GB-PS 11 99 350 a device is also ent take a different stretch behavior of two Parts to compensate for thermally induced lengths changes. To do this, one of the two parts forms the A towards a tubular or rod-shaped core, on the jacket the other part is shrunk. With the known Furnishing should in particular be at room temperature Devices in a position independent of temperature fluctuations be positioned. Large temperature differences, as in cryotechnical devices occur, but can be with the do not easily compensate for known equipment.

The DE patent application published on June 23, 1956  G 37 93 IX / 42d discloses a flexible bearing for the Posi tioning of instruments using rubber parts. Such parts, however, can be used in cryogenic applications Temperatures not too. It is also a constant, tempe Temperature-dependent spacing of two device parts is not possible.

In addition, FR-PS 6 32 855 is a one-armed up suspension of a machine known for a power transmission used on an angled tie rod will. Aspects of a temperature-independent Beabstan Two device parts are not addressed.

Starting from a facility with the in the preamble of It is the task of the design features specified in the main claim the present invention to this device improve that a relatively simple structure with weni Gen details is made possible and yet in cryotechnical Devices such. B. superconducting magnets occurring forces are transferred.

This object is achieved according to the invention with the characteristics of Main claim specified features solved.

Because of this configuration of the spacing and / or Ab support device is its total coefficient of expansion adjustable in the direction of spacing by using the block like base part and the V-shaped contra-angle handpiece with materials selects predetermined different expansion coefficients and the two legs of the winding piece at a predetermined length a predetermined positive or negative angle one running between these two legs, in Beab line or plane pointing in the right direction. It must the V-shaped elbow for temperature changes between his legs can change trained angles. A ge  Desired coefficient of expansion of the entire spacing device in the direction of spacing can then both in terms of its sign as well as its size in certain areas in a relatively simple manner realize.

Advantageous embodiments of the Beabstan according to the invention dungseinrichtung appear from the subclaims.

To further explain the invention reference is made to the Drawing referred to in the figure, a longitudinal section by a spacing device according to the invention is shown schematically. If in this Connection only the point of view of a spacing is in the foreground, it is generally with this device also performed a support function.

The device, generally designated 2 in the figure, which is also to be regarded as a spacer, is used for the frictional spacing and / or support of two parts of the device to be held, for example, at different temperature levels, which rest against a base surface G of the device and a support surface A parallel thereto. Such device parts can e.g. B. the low-temperature inner housing of a superconducting magnet and the surrounding, lying at room temperature outer housing or a radiation shield lying at an intermediate temperature. The spacing device has a block-like, in particular cuboid, first element as base part 3 , which consists of a material with a relatively large coefficient of expansion. In particular, mechanically high-strength, thermally poorly conductive plastics are suitable as the base material, which preferably also with a reinforcing material such as. B. glass fibers or carbon fibers are provided. In the base part 3 z. B. incorporated two recesses 4 and 5 . These recesses run symmetrically and obliquely with respect to a line S pointing in the spacing direction at predetermined angles α and α '. In these recesses, the free ends 7 'and 8 ' of two legs 7 and 8 are inserted, for example, inserted that on the base surface G facing the bottom surfaces of the recesses is non-positive, while on the side flanks there should only be a positive connection. If necessary, the ends 7 'and 8 ' can also be introduced directly into this in the manufacture of the base part 3 , such as. B. cast around with the base material, if you provide a release film or the like, a slight movement of the legs measures to enable the side flanks. The legs 7 and 8 abut with their ends 7 ″ or 8 ″ protruding from the base part 3 on a common separating and sliding surface 10 and thus result in an angle piece 11 which, in a longitudinal section, has the shape of a “V” standing on the head s shows. There is therefore only a loose contact between the two legs, in order to permit a change in the angle between them of the amount 2 α in the event of temperature changes. If necessary, a hinge-like connection between the legs can also be provided on the support surface A. The approximately V-shaped angle piece 11 , which represents a further element, should consist of a material with a second expansion coefficient that is smaller than the first expansion coefficient. Preferably the angle material is a high strength metal such as a TiAlV alloy. The legs 7 and 8 of the approximately V-shaped angle piece 11 can in particular have approximately circular cross sections q , but other cross-sectional shapes are also suitable.

In a departure from the configuration of the support surface A indicated in the figure, the colliding ends 7 ″ and 8 ″ of the legs 7 and 8 can also be designed to be widened at this point or provided with special attachments in order to enlarge the surface and thus improve the introduction of force . If a large-scale force application can be dispensed with, the support surface can also be designed approximately in a punctiform manner.

According to a specific embodiment of the spacing device 2 shown in the figure, it has a block-like base part 3 with a base area G of 40 mm × 20 mm and a height h of 20 mm. This block-like base part 3 consists of a commercially available glass fiber reinforced plastic (GRP) with a relatively large coefficient of expansion, so that it shows a correspondingly large shrinkage ε ₃ in the spacing direction and ε ' ₃ perpendicular to this direction during cooling. In this block-like base part 3 , the ends 7 'and 8 ' of the legs 7 and 8 of an approximately V-shaped angle piece 11 are embedded, each having a cross section q of approximately 80 mm ² and made of a TiAlV 64 alloy. This material has a relatively small coefficient of expansion, so that there is a corresponding shrinkage e _{11 of} the approximately V-shaped angle piece 11 in the direction mentioned. The legs 7 and 8 are inclined relative to the normal pointing in the spacing direction on the top surface D of the base part 3 by an angle α or α ′ = - α of approximately 30 ° and end within the block-like base part 3 at a distance e ₁ of approximately 8 mm above the base area G. The approximately V-shaped angle piece 11, with its support surface A formed by the two adjoining ends 7 ″ and 8 ″ of the legs 7 and 8 , protrudes from the opposite cover surface D by a distance e ₂ of approximately 11 mm. If this spacing device is then successively cooled from room temperature with 293 K to a helium temperature of 4.2 K, the shrinkage values are shown in the following table, with ε ₂ denoting the total shrinkage of the spacing device 2 in the spacing direction and with T the respective temperature are.

table

As can be seen from the table, the total shrinkage ε _{2 of} the spacing device 2 is less than 1 ‰ with a cooling from room temperature to 4.2 K; ie this device has an almost temperature-independent dimension in the spacing direction.

According to the concrete exemplary embodiment described above, it was assumed that the spacing device should have a dimension in the spacing direction that is largely constant when the temperature changes. This is achieved in that the more shrinking material of the block-like base part 3 due to its shrinkage perpendicular to the spacing direction reduces the angle of inclination α or α 'of the two legs 7 and 8 relative to the plane of symmetry S in the spacing direction by a predetermined amount. With this reduction in the angle of inclination α or α 'a corresponding increase in the extent of the legs 7 and 8 is connected in this direction. However, this enlargement is more than compensated for by the shrinkage of the legs 7 and 8 and the block-like base part 3 in this direction according to the specific embodiment.

Claims (5)

1. A device for the mutual frictional spacing and / or support of two parts of a cryotechnical device to be kept at different Temperaturni levels, the device comprising two expansion coefficients consisting of materials with different expansions, which are connected to one another in such a way that at least one device part changes in temperature in the spacing direction, a predetermined coefficient of expansion of the entire device is guaranteed, so that the frictional connection is retained, characterized in that the first element is formed as a block-like base part ( 3 ) from a first material with a first coefficient of expansion, in each of which a free one End ( 7 ', 8' ) of the two legs ( 7, 8 ) of an approximately V-shaped angle piece ( 11 ) forming the second element ( 11 ) at a predetermined angle ( α, α ') bezüg Lich a plane of symmetry extending in the spacing direction (S ) of the et wa V-shaped angle piece ( 11 ) protrudes obliquely, the approximately V-shaped angle piece ( 11 ) consisting of a second material with a second coefficient of expansion that is smaller than the first coefficient of expansion, and that the two legs ( 7, 8 ) to the free ends ( 7 ', 8' ) lying opposite ends ( 7 '', 8 '' ) both a common, outside the block-like base part ( 3 ) lying free support surface (A) and a common separating and sliding surface ( 10 ) for lying against each other. 2. Device according to claim 1, characterized in that the block-like base part ( 3 ) consists of a mechanically high-strength, thermally poorly conductive plastic. 3. Device according to claim 2, characterized in that the plastic of the block-like base part ( 3 ) with carbon fiber or glass fiber material is reinforced ver. 4. Device according to one of claims 1 to 3, characterized in that the V-shaped angle piece ( 11 ) consists of a high-strength metallic material. 5. Device according to claim 4, characterized in that the metallic material of the V-shaped gene elbow ( 11 ) is a TiAlV alloy.