| 摘要 |
<p>1468040 Fibre-reinforced plastic pipes CIBAGEIGY AG 10 May 1974 [10 May 1973] 20889/74 Heading F2P A fibre-reinforced plastic pipe is made by applying a tube of resin-absorbent material upon a first mandrel section, continuously advancing the tube across a gap between the first mandrel section and a second mandrel section in alignment therewith, applying a thermosetting resin to the tube as it passes over the gap in sufficient amount to saturate the tube, at least partially curing the resin prior to the arrival of the advancing resinsaturated tube on to the second mandrel section to provide a conveyer tube, applying bands of thermosetting resin compositioncoated continuous fibre elements on to the conveyer tube, and curing the resin to form a pipe of which the conveyer tube is an integral part. The tube of resin-absorbent material may be formed from strips of kraft paper longitudinally applied to the first mandrel section from four rolls 16 (Fig. 1). As the advancing pipe assembly draws the paper off the rolls the strips are guided through a slotted guide member 22 (Fig. 3) so that their longitudinal edges slightly overlap. Strips of reinforcing strands 30 (Fig. 4) coated with a dry partially gelled thermosetting resin may be applied circumferentially about the longitudinally extending strips 17 from rolls 26. A strip 31 of porous material such as tissue paper may be wound on top of the strands before the application of heat from a heater 32. Sufficient heat is applied to bond the strands to the paper tube without allowing the resin to flow through the tube. As the tube advances over the gap 14, which is a mandrel section of reduced diameter, resin is applied from a metering pump 34 to saturate the tube and preferably provide an inner coating 36. While still in the gap 14, heat is applied at 38 to at least partially cure the resin before the conveyer tube is rounded up on the second mandrel section 12. Windings of continuous fibre elements, e.g. glass filaments or rovings are applied to the conveyer tube at 40, 42 and 44 (Fig. 1A), the tube leaving the mandrel in the region of a sealing cup B and being then filled with air under pressure to resist the compressive forces of the windings. Air is provided through a fitting 58 in a stationary coupling member 54 which connects with a rotary coupling (Fig. 6, not shown) fixed to the mandrel and in communication with a tube 52 extending through the mandrel. The end of the mandrel carries the outlet for the tube 52 and a sealing cup B (Fig. 1A; also Fig. 5, not shown) which engages the interior of the pipe being fabricated. The air is maintained under pressure by a floating piston C (Fig. 1B; also Fig. 7, not shown) secured by a tie rod to the end of the mandrel. The pipe is wound with a strip 70 of tissue paper prior to curing the resin by passage through a series of ovens 72, 74, 76, 78. The pipe is advanced and rotated by a puller D, and lengths of finished pipe are cut-off at E. The thermosetting resin utilized may be an epoxy or polyester resin.</p> |
