TH22536A - Process and equipment for resin hose connection - Google Patents

Abstract

When connecting resin tubes using induction heating method By relying on the processes that have led Proposed in this invention The resin tube will not be inflated inside due to the expansion of the Air and resin during heating 2 cylindrical heaters made of steel The stainless steel seedlings are positioned around the joint between two tubes (1a, 1b) made of polyvinylidene fluoride. This 2 heating device is heated by means of induction to The joints between tubes 1a and 1b are welded together.This heater 2 has several holes of 2a so that the molten air and resin between the heater 2 and resin tubes 1a and 1b can flow. Can come out through hole 2a.

Claims (9)

1.Process of resin tubing It consists of a procedure of (a) contact of two resin tubes arranged end to end to be connected to form the area of contact (b) alignment of the cylindrical metal heater along the contact area between the tubes. Such resins At least one of the components of such a heating device was selected from the assembly group. With stainless steel, brass and aluminum and the aforementioned heaters have a core length of approximately 1/4 to 2/3 the nominal diameter of the resin tubing (c) enclosing such heaters. Coil Bonding of resonant capacitors and secondary windings of a serial output transformer. Between the two ends Of such a coil Welding of the primary winding of another output transformer to the inverter. Which converts direct power from electric source to alternating power with a potential difference And a predetermined frequency and welding the said inverter to the said power source Where such a heating device is stimulated by a high frequency electric current to heat Such a heating device provides induction heating and such a joint between the resin tubes. (D) The actuation of such a heating device by high-frequency electric current is heated. To such a heating device by inductive heating by such a contact Between the said Shen pipes are welded together. And at the same time Metal shape heating device The cylinder is fixed to the external surface of the resin tube. 2. The process of welding the resin pipe according to Clause No. 1, which the heating device sounds It consists of several holes arranged in a cylindrical surface in the direction of thickness. 3. Process of welding resin tubes according to Clause No. 2, which diameter of the hole Each of these holes, positioned in a cylindrical surface, ranges from 0.1 mm to 5 mm. 4. Process of welding resin pipes according to Clause No. 2, where many holes are placed In multiple rows and holes, each hole in each of those rows is arranged evenly at the same distance. 5. The process of welding the resin pipe according to claim 1 or 2, which the diameter passes The inner center of the heater has a greater diameter tolerance than the outer diameter of the resin tube. And heating equipment It was heated near the resin tube. 6. The process of welding resin tubes according to claim 1 or 2, which the equipment provides It has a cylindrical shape formed by joining the ends of the plates together. 7. Process of resin welding according to Clause No. 4, which the plates are made with Stainless steel 8. The process of welding resin tubes according to claim 1 or 2, where cylindrical stoppers contain heat-resistant and electrically insulating substances. Is attached around the resin tube on both sides of the aforementioned heater. 9. Process of welding resin pipes according to Clause No. 8, which substances for sealing Such a cylinder is From among containing phenolic resin, epoxy resin, non- Saturated and dialylphthalate resin 1 0. The process of welding resin tubes according to claim 1 or 2, which the equipment provides. Such a cylindrical heat is placed around each resin tube in a state with a gap in the resin tube. Which ranges from 0.1 to 10 mm 1 1.Equipment for welding resin pipes Such equipment which consists of A cylindrical metal heater that is placed around the contact area between two resin tubes. Tubes that connect end to end where such a heating device contains at least one substance that Choose from a range of stainless steel Brass and aluminum and heating devices Such axis lengths are from approximately 1/4 to 2/3 of the nominal diameter of Such a resin tube The coils that surround the heating device and the carpacitor rosenance. And the secondary winding of the output transformer Which is serial connected between the two ends of the said coil The primary winding of another output transformer which is connected to the inverter which converts the power. Straight from the electrical source to an alternating power with a pre-defined potential difference and frequency, where Such inverters and such power sources are connected. High frequency electric current generator It is used to induce a high frequency electric current into the coils to heat such a heating device by inductive heating where the contact area between the resins is welded. And for fixing the equipment The metal is heated at the same time to the external surface of the said resin tube. 2. The device of welding resin pipe according to claim No. 11, which the device is heating It also consists of several holes arranged in a cylindrical metal plate in the direction of the thickness of that plate. 3. The device of resin pipe welding according to claim 12, where several such holes are arranged. Each hole in that row is placed in multiple rows and each hole in that row is arranged at equal spacing 1. 4. Equipment of resin pipe welding according to claim 12, which the plate is made with. Stainless steel 1 5. The device of welding of resin tubes according to claim 13 or 14, in which the internal diameter of such heating apparatus has a diameter tolerance at Greater than the outer diameter of such a resin tube And such a heating device was provided Heat in the area near the resin tube 1 6. The device of welding the resin pipe according to claim 13, which the heating device It has a cylindrical shape formed by joining the ends of the plates together. 7. The device of welding resin pipe according to claim 16, which diameter Of each of these holes Which are positioned in such a cylindrical surface range from 0.1mm to 5mm 1. 8. The device of welding of resin pipes according to claim 11 or 12, in which cylindrical stoppers contain heat-resistant and electrically insulating substances. Is attached around the resin tube on both sides of the aforementioned heater. 9. Equipment of resin pipe welding in accordance with claim 18, which substances for covering Such a cylinder is From a group containing phenolic resin, epoxy resin, and polyester Unsaturated and dialkylphthalate resin 2 0. The equipment of resin pipe welding according to claim 11 or 12, which the device provides Such a cylindrical heat is placed around each resin tube in a state with a gap in the resin tube. Which ranges from 0.1 to 10 mm.