RU2004108998A - METHOD FOR MANUFACTURING INTERMEDIATE AND / OR UPPER HEAT EXCHANGE UNIT OF HEAT EXCHANGE UNIT AND METHOD OF MANUFACTURING LOWER HEAT EXCHANGE UNIT OF HEAT EXCHANGE UNIT - Google Patents

Claims (16)

1. A method of manufacturing an intermediate and / or upper block of a heat exchanger of the type of a block or block-section regenerative air heater, characterized in that it provides for the element-wise execution of shell shells for supplying and discharging heated air, pipes and tube boards, block frame elements at technological posts of blank shells. , bending pipes on pipe bending equipment to obtain multi-way plane-bent with successively changing parameters of the branches and connecting them to yen, crimping bent pipes, assembling manifolds for supplying and discharging air with welded tube boards in them, installing the frame of the block and collectors for supplying and discharging air, packing the tube bundle and re-crimping it together with the collectors in the block, and mounting the frame of the block and collectors for supplying and air exhaust is produced on the slipway by installing on the slipway plate having racks and a removable upper beam of the portal frame, additional racks with removable beams having coordinate elements with support-lighthouse vertical, surface-aligned surfaces for fixing and monitoring the position of the tube sheets of the air supply and exhaust manifolds, additional racks for technological fixation of the mounted frame racks of the unit, while installing the air supply and exhaust manifolds, technological fixation of the ends of the ends and the spatial position of each collector body is carried out using coordinate support discs, which are mounted on the lower side of the removable upper beam of the portal frame coaxially with the central vertical axes of the collectors supply and exhaust air. 2. The method according to claim 1, characterized in that the portal frame is placed on the slipway plate in a vertical plane passing through the central vertical axis of the mounted manifold supply and exhaust manifolds, and the portal frame racks and their supporting parts are placed outside the dimensions of the mounted heat exchanger unit . 3. The method according to claim 1, characterized in that for the possibility of fixing and monitoring the position of the tube sheets of the intake and exhaust manifolds, the removable beams are mounted on additional racks with the possibility of technological contact of the upper of the beams with the outer surface of the upper side section of the tube plate, and the lower of beams - with the outer surface of the lower frontal section of the tube plate. 4. The method according to claim 3, characterized in that at least one additional rack is equipped with at least one intermediate removable beam for fixing and monitoring the position of the tube plates. 5. The method according to claim 4, characterized in that the intermediate removable beams are preferably equidistantly arranged along the height of the tube plates of the mounted block. 6. The method according to claim 1, characterized in that the coordinate elements with supporting and lighthouse surfaces, at least on a part of the removable beams, are spaced along the length of the removable beam, and at least four coordinate elements with an arrangement of at least each pair of extreme ones within the tube plate of the mounted block. 7. The method according to claim 1, characterized in that the coordinate elements with support-lighthouse vertical surfaces aligned on a plane are fixed on removable beams with the possibility of adjusting their position. 8. A method of manufacturing the lower block of a heat exchanger of the type of a block or block-sectional regenerative air heater, characterized in that it provides for the element-wise execution at the processing stations of the blanks of the shells of the manifolds for supplying and discharging air for supplying and discharging heated air, pipes and tube plates, block frame elements bending pipes on pipe bending equipment to obtain multi-way flat-bent with successively changing parameters of the branches and connecting and elbows, crimping bent pipes, assembling manifolds for supplying and discharging air with welding tube sheets in them, mounting the frame of the block and manifolds for supplying and discharging air, packing the tube bundle and re-crimping it together with the manifolds in the block, and mounting the frame of the block and manifolds for supplying and air extraction is carried out on the slipway by installing on the two-level slab plate a rack with a removable upper beam and a portal frame, additional posts with removable beams having coordinate elements with a support-beacon vertical, plane-aligned surfaces for fixing and controlling the position of the tube sheets of the air supply and exhaust manifolds, additional racks for technological fixation of the mounted frame racks of the unit, while installing the air supply and exhaust manifolds, technological fixation of the ends of the ends and the spatial position of the body of each collectors using coordinate-supporting disks that are mounted on the bottom side of the removable upper beam of the portal frame coaxially with the central vertical axes of the air inlet and outlet manifolds. 9. The method according to claim 8, characterized in that the portal frame is placed on the slipway plate in a vertical plane passing through the central vertical axis of the mounted manifold supply and exhaust manifolds, and the portal frame racks and their supporting parts are placed outside the dimensions of the mounted heat exchanger unit . 10. The method according to claim 8, characterized in that the collector of the block is mounted in the area of the location of the higher section of the slipway plate, which is preferably rectangular in plan with an axial dimension along the longitudinal axis of the block not less than the corresponding axial projection size of each of the air supply and exhaust manifolds in plan, and in the transverse direction, not less than the distance between the outermost outermost projection points from each other in terms of both manifolds for supplying and discharging air of the unit. 11. The method according to claim 8, characterized in that a higher section of the slipway plate is performed with the excess of the remaining part of the plate above the supporting surface corresponding to the height of the additional lower supports of the lower unit, and the gantry frame racks are higher than the total height of the lower unit and additional lower supports by an amount corresponding to the height interval between the lower contour contact surface of the coordinate-supporting disk and the upper surface of the support of the removable upper portal beam frames on a rack. 12. The method according to claim 1, characterized in that for the possibility of fixing and monitoring the position of the tube sheets of the intake and exhaust manifolds, the removable beams are installed on additional racks with the possibility of technological contact of the upper of the beams with the outer surface of the upper side section of the tube plate, and the lower of beams - with the outer surface of the lower frontal section of the tube plate. 13. The method according to p. 12, characterized in that at least the additional racks install at least one intermediate removable beam for fixing and monitoring the position of the tube plates. 14. The method according to item 13, wherein the intermediate removable beams are preferably equidistant on the height of the tube plates of the mounted block. 15. The method according to claim 8, characterized in that the coordinate elements with supporting and lighthouse surfaces, at least on a part of the removable beams, are spaced along the length of the removable beam, with at least four coordinate elements with an arrangement of at least each pair of extreme ones within the tube plate of the mounted block. 16. The method according to claim 8, characterized in that the coordinate elements with support-lighthouse vertical surfaces aligned on a plane are fixed on removable beams with the possibility of adjusting their position.