DE102004003161A1 - Support tube for magnetic resonance scanner - Google Patents

Abstract

Support tube made of reinforced plastic for magnetic resonance scanner with guides for a patient bed and molded on both sides, upwardly open bearing shells with lower side fasteners, where it is made including the guide rails and embedding of the fasteners (2) by means of plastic molding and that it locally In the area of the bearing shells (4) with cast-on stiffeners (3) is provided.

Description

The The invention relates to a support tube made of reinforced plastic for magnetic resonance scanner with guides for one Patient couch and molded on both sides, upwardly open bearing shells with lower attachment members.

was standing the technology with regard to the construction of these support tubes are pipes, which by wrapping resin impregnated glass fiber strands (Rovings) made around a mandrel with the desired inner contour and, optionally with heat input, hardened become. About that In addition, the support tube is already proposed in a multipart To manufacture casting mold with a reaction resin and subsequent curing, wherein the Grouting in a conventional manner under vacuum or vacuum with followed by Pressurization, can be done. In this manufacturing process was basically a uniform wall thickness the support tube provided, wherein a resin system plus additional reinforcing fibers or one with fillers filled Resin system were used.

The use of a filler-free resin system is advantageous from a production point of view - however, the use entails various disadvantages and risks:
The curing is associated with a temperature increase (exothermic) and with a volume shrinkage. Both effects can lead to mechanical stresses in the finished component, cracks or at least to shrinkage-related deformations and dimensional deviations on the outer contour. Particularly at risk are areas with higher wall thickness, ie greater material accumulation. These problems can be avoided by completely completing the cavity of the mold with reinforcing materials such as glass fabric / -gegege-connected but with very high production and material costs. A reinforcement preferably with glass fabric or -gelege is imperative to achieve a sufficiently high rigidity.

By Use of fillers z. As quartz powder, can due to exothermic and reaction shrinkage deformations and Defects are largely avoided. However, that's enough Stiffness commercially available casting resins with about 65 wt .-% quartz flour not around at the given contour of the support tube to achieve sufficiently low deformations under load.

Of the Invention is therefore based on the object, a support tube of the above Such a way to design that with a simple structure a very high rigidity of the composite can be achieved in such a way can that despite the Auflagerung of the support tube in the range of less stable open end bearing shells very low deformations be achieved under load.

to solution this object is inventively provided that the support tube including the guide rails and under embedding of the fastening members by way of molding Plastic is made and that it is local in the area of the bearing shells provided with cast-on stiffeners.

It has surprisingly shown that the introduction of local thickenings in the area of the end Tongues, so the open bearing shells, a very significant improvement the flexural strength results and under very low deformations Load leads, without that - like previously planned - the entire support tube continuously provided with a very high wall thickness must become. This saves not only a lot of material but before also weight.

In addition to the local invention Thickening in the region of the tongues of the support tube can in design the invention be provided in a conventional manner, the casting resin with fillers, said fillers in addition to, for example, quartz flour or other finely divided fillers such as fused silica, alumina or aluminum hydroxide with particular Advantage also particles of different particle size and including in particular larger spherical fillers like glass beads, may contain. These larger particles enable For example, it is that these fillers before pouring the casting resin into the mold and this almost completely fills it with then the casting resin, possibly enriched with a floury filler and thus with accordingly low viscosity, contribute. The coarse grained Particles then hinder the penetration of the casting resin practically at all Not.

Furthermore of course the casting resin also fibrous Stiffening inserts, in particular in the form of scrim or fabric mats made of mineral or glass fibers, aramid or carbon fibers. These stiffening mats be first around the inner mandrel of the mold placed and after closing the form and optionally the introduction of particulate fillers from the introduced casting resin saturated.

there it has proven to be particularly useful if the fillers and / or the fibrous stiffening inserts with to the respective casting resin adapted adhesion promoters are coated. For example, can when using epoxy resins epoxy silane as a primer use Find.

The Glass transition temperature of the casting resin is adapted to the operating temperature range, ie it is located at least 10 to 20 ° C above the upper operating temperature.

Further Advantages, features and details of the invention will become apparent the following description of an embodiment and with reference the drawing, which schematically shows a side view of an RF support tube according to the invention shows.

This HF support tube 1 is here including the unrecognizable inner guide rails and under embedding of fasteners 2 , which are used for mounting in the magnetic resonance scanner, produced by molding from a plastic which may contain various fillers and fiber reinforcements. Essential to the invention is the provision of thickened wall areas 3 especially in the area of the bearing shells 4 , at 5 are underside projections indicated that act as Einschiebführungen during assembly of the support tube.

The inventive only local increase in the wall thickness in the region of the tongues or open bearing shells 4 gives almost the same reduction in deformation under load as a continuous reinforcement of the wall thickness of the support tube, but this would lead to an excessive increase in the pipe weight. In addition, due to this local stiffening only in the area of open bearing shells 4 an increase in the wall thickness in the middle RF-sensitive area avoided.

Of the Content of filler the one casting resin can be added is limited, since with increasing filler content the flow behavior and thus the processability drastically worsened. The highest possible filler but it is desirable because it also greatly increases the stiffness of the casting resin molding material. When using mixtures of fillers with different particle size - or the use of (mixtures of) spherical fillers such as glass beads - the filler at a comparatively low processing viscosity elevated become.

A optimum rigidity for a given geometry is achieved when the biggest part the to be spilled Hollow form filled with glass fabric / -gelege and then with a filler Cast resin becomes. The glass fabric / -gelege can have different glass contents in the longitudinal and circumferential direction, wherein preferably the glass content in the circumferential direction be higher should. The glass fabric / -gelege is relatively coarse mesh, with a Mesh size> 1mm, even better> 2mm, should be used. in principle can be both resin impregnated and cured as well as dry glass cloth / scrims.

A Production-optimized variant is the wrapping of the inner Thorns with glass fabric or Glasgelege up to a thickness of at most the lowest wall thickness of the pipe corresponds. The remaining free space to picture the desired Contour is caused by the filler Cast resin filled.

Another at the beginning already mentioned way to reinforce the support tube 1 with its open cups 4 with areas 3 with greater wall thickness is to fill the cavity of the mold with coarse-grained particles, optionally with the use of vibration to the interstices then with casting resin, preferably filler-containing casting resin with incorporated quartz powder od. Like. Shed, and so to connect the individual particles together.

Of the Particle diameter depends from the wall thickness of the to be filled Cavity, it should be> 2mm amount to the flow resistance not to be too high; the maximum diameter should be between 30% - 40 % of the wall thickness lie; For a wall thickness for example, 10 mm are particles with a diameter of 2 - 4 mm favorable. Preferably, the use is more spherical Particles while using particles with as possible uniform diameter, especially the use of glass beads.

It is surprising that by a special combination of a filler-containing casting resin and a glass mesh a complete impregnation and very high stiffness of the composite can be achieved. This is all the more remarkable, since similar stiffness values otherwise only with much more complex manufacturing processes (RTM, DP-RTM, wet-winding method) can be achieved.

The The table below shows, in addition to Examples 1 and 2, the State of the art, in the embodiments 3 and 4 that through the opposite the winding method of Example 1 much easier casting according to the examples 3 and 4 an equally good or even much better stiffness is achieved and in particular the rigidity considerably better is as with simple vacuum casting without the local reinforcements in the area of open bearing shells.

Claims (7)

Supporting tube made of reinforced plastic for magnetic resonance scanner with guides for a patient couch and on both sides molded, open-topped bearing shells with lower-side fastening members, characterized in that it including the guide rails and under embedding of the fastening members ( 2 ) is made of plastic by way of molding and that it is locally in the region of the bearing shells ( 4 ) with cast-on stiffeners ( 3 ) is provided. Support tube according to claim 1, characterized that the casting resin a filler contains. Support tube according to claim 2, characterized that the filler a quartz powder or other finely divided fillers such as fused silica, aluminum oxide or aluminum hydroxide or the like. Support tube according to claim 2 or 3, characterized that the filler Particles of different particle sizes, in particular larger spherical fillers like glass balls, contains. Support tube according to one of claims 1 to 4, characterized that the casting resin fibrous stiffening inserts, especially in the form of Glege- or fabric mats of mineral or Glass fibers, aramid or carbon fibers contains. Support tube according to one of claims 1 to 5, characterized that the fillers and / or the fibrous ones Stiffening inserts with adhesion promoters adapted to the respective casting resin are coated. Support tube according to one of claims 1 to 6, characterized that the plastic is a cured epoxy-polyester or polyurethane-based casting resin is.