A COMPRESSIBLE TUBE, ESPECIALLY FOR INFUSION SOLUTIONS
The present invention refers to a compressible tube for transport of small amounts of liquid, especially for infusion solutions, a flow regulator being attachable on a preferred position along said tube, said flow regulator regulates the flow area of the tube by pressure action.
Background of the invention
Regulation of the flow area in infusion- or transfusion assembleys is mostly performed by a flow regulator, which is passed on the compressible tube and which by clamping reduces the flow area of the tube. Since infusion solutions generally are administered drop by drop the amount of flow is very small. A drawback of all existing flow regulators of the above mentioned kind is that these are very difficult to regulate at small amounts of liquid. A reason for this is that when compressing the tube the midportion thereof will be compressed more than the side edges, so that a 8-shaped area is obtained. Due to the rigidity of the tube material a further compression of the tube by the clamping means will result in a flattening of the midportion of the tube while along the edges of the tube small longitudinal flow channels remain, the sizes of which are uncontrolled and which can be very difficult to regulate. After such a flattening the ability of the tube material to resume its shape is detoriated and in many cases the degree of compression is so high, that so-called cold flow will occur. The strong deformation of the tube involves, that it will take a considerable time for this to return to a lower degree of compression, which means that the tube long after a flow regulation continues to expand and by that change the amount of flow. This can have catastrophic results in case a certain maximum infusion amount has been set for a patient, and which amount after several minutes is increased to the double or multiplied.
Many solutions have been suggested for overcoming this
problem, but up to now none of the suggested measures have proved to be reliable. The idea of most of the suggested solutions is to change the flow regulator, while the tube itself has not been a part of the presentation of the problem.
The object and most important features of the invention
The object of the present invention is to provide acompressible tube of the kind mentioned above, which withstands very strong compressed deformations and which directly after the discontinuance of the clamping pressure resumes its shape. Another object of the present invention is to provide an extrudable tube, which without any processing after the extrusion is ready to use. A further desire is that the manufacture of the new tube should not be more expensive than for conventional tubes for the same purpose. These objects have been solved by the fact that the tube comprises thinner and thicker wall portions as seen in cross section, said thinner portions being located at corner portions of a triangle or polygon as seen in cross section, the straight connecting portions between the corners making said thicker wall portions.
Description of the drawings
Figure 1 shows in perspective an end view of the fresh not yet solidified extruded tube according to the invention. Figure 2 is a view analogous to Figure 1 of the finished, solidified tube according to figure 1.
Figure 3 is a vertical longitudinal section through a known flow regulator.
Figure 4 shows the flow regulator according to figure 3 in a view from above.
Figure 5 shows a section through .the flow regulator with a tube according to the invention which is under clamping pressure.
Description of embodiments
The tube according to the invention, on the drawings denoted with the numeral 10, is preferably extruded with an outer circular cross section, while the wall portions of the tube varies sector by sector. Thus the tube shows in cross section part-circular, thinner wall portions 11, arranged between inner, straight, thicker wall portions 12. Due to the inherent tensions of the material and the variations of thickness of material a deformation of the material will occur when the tube is cooled and the plastic material is solidified so far that the tube assumes a triangular shape in cross section if it is provided with three part-circular, thinner wall portions 11 and an equal number of straight, thicker portions 12. The orientation of the thinner portions to the corners of the geometrical figure occurs during the process of solidification due to the shrinkage of the material. In case more than three thin portions are arranged and an equal amount of thick portions, other geometrical figures are obtained, in which always the thinner portions are located in the corners of the geometrical figure.
The flow regulator 13, which is of a type commonly used and comprises a clamp housing 15 and said clamping member 14 dis placeably arranged therein, which in the shown embodiment consists of a roller. This is on both end sides provided with axle hubs 15, which are guided in two tracks 17 in the side walls of the clamp housing 15. The bottom surface 18 of the clamp housing 15 is inclined with respect to the tracks 17, against which the bottom surface of the tube 10 rests.
When compressing the tube 10 in the flow regulator 13 by means of the roller 14, the thinner corner portions 11 will without diffuculty be bent 180 at the same time as the radius of curvature of these portions will be very small and by that also the possible channel 15 formed at the compression. At a reduction of the pressing force by displacing the roller 14 somewhat to the left according to the drawing, the liquid pressure within the tube will at first hand act on the thin, plane portions 11, which are located between the thin, folded edge portions 11, so that a quick raising of these tube
portions is obtained. After that the thicker portions 12 of the side walls will help to raise these so that a practically immediate change of the cross section will occur and not as up to now has been the case, the change of the cross section was continued during 5 minutes or more.
The tube 10 according to the invention has in the fresh extruded state according to figure 1 preferably an outer diameter of about 3,7 mm while the thinner, part circular wall portions 11 have a thickness of about 0,3 mm. The largest thickness of the thicker wall portions 12 is about 0,6 mm.
The invention is not limited to the embodiment shown but a plurality of modifications are possible within the scope of the claims. Thus the tube can have another cross-sectional shape than triangular, for example rectangular, retaining the advantages of the invention.