RU2004109119A - TECHNOLOGICAL COMPLEX equipment for manufacturing heat exchange section air cooler GAS Stocks for manufacture of heat exchangers SECTIONS OF STAFF, slipway for assembly and installation of collectors SUPPLY OR COLLECTOR discharging cooling GAS AND MANUFACTURING Stocks for the central support element under FAN MOTOR - Google Patents

Claims (20)

1. The technological complex of equipment for the manufacture of heat-exchange sections of an air-cooled gas apparatus primarily for compressor stations for pumping gas, characterized in that it includes a slipway post for the manufacture of heat-exchange sections of the apparatus, a manufacturing station for a supply manifold or a collector for exhausting a cooled gas, a manufacturing station for the input gas outlet, a post for the manufacture of a central support element for the fan motor of the apparatus, as well as a section for hydraulic testing of the section apparatus, while the manufacturing site of the supply or collector of the outlet of the cooled gas contains a section for cutting sheets and manufacturing shell casings, and its slipway for assembling and installing the collector of supply or exhaust of gas includes lodgement supports for the mounted body of the collector of supply or exhaust of gas and for the upper suspension support during installation of the central tee section having a pipe for connection to the gas pipeline and portal supports with removable portal beams equipped with mounting verified about the plane and the angle of rotation of the mounting holes with devices - flange disks for technological fastening of the flanges of the gas supply or exhaust manifold, mainly collar ones, and the gas inlet or outlet chamber manufacturing section contains sections for cutting and blanking the chamber body plates, drilling holes in the tube plate and the opposite an external board for supplying a technological tool for subsequent cutting and fixing the ends of the heat exchange tubes in the pipe board, as well as a tilter for technological turn s of the chamber relative to its longitudinal axis during welding of at least the longitudinal walls, partitions, bottom and cover of the chamber. 2. The technological complex according to claim 1, characterized in that the slipway for manufacturing the heat exchange section of the gas air cooling apparatus comprises a support frame with intermediate and end technological supports located on it in two rows for fixing the side walls and the inlet chambers mounted at the ends of the sections, respectively, and gas outlet, with each technological support having horizontal supporting platforms and at least part of the technological supports having racks mounted on them with at least one coordinate a surface area exposed to the dimension of the outer surface of the corresponding wall of the section being manufactured, and not less than one end support from each end of the slipway is provided with an upper coordinate-fixing element, and the contact surfaces of these elements on opposite ends of the slipway are installed with a height difference of 0.002 to 0,009 working length of the slipway without taking into account the total length of the specified coordinate-fixing elements. 3. The technological complex according to claim 1, characterized in that the slipway for assembling and assembling a supply or exhaust manifold of a gas to be cooled by an air-cooled gas apparatus contains a support frame on which at least three lodgement supports are mounted to support the body of the collector or gas outlet and for supporting the central tee section having a pipe for connection to the gas pipeline, and at least four portal supports for temporary technological fixation of the flanges along the plane, the angle of rotation and ensuring design the distance between the flanges of the nozzles connecting to the gas inlet or outlet chambers of the gas air cooling apparatus is adequate to the location of the contact surfaces of the counterflanges and the mounting holes in them in the gas inlet or outlet chamber, while at least two lodgement supports are placed so that they can be supported on them manifold bodies for supplying or discharging gas according to a cantilever-beam scheme, each mainly between a pair of portal supports installed under the extreme and adjacent pipe flanges for connection the gas inlet or outlet chambers of the apparatus, wherein each lodgement support comprises a bed with attachment points to the support frame and upper inclined support elements forming a bell-shaped lodgement with support sections oriented normally to the radii of a circle describing the outer contour of the gas supply or exhaust manifold body and spaced on different sides from the average vertical longitudinal plane of the collector body each at an angle of 20 to 65 ° in the direction from the lower point of the outer contour of the collector body ode or gas outlet. 4. The technological complex according to claim 1, characterized in that the slipway for the manufacture of a central support element for the fan motor of the gas air-cooling apparatus or its section comprises a system of elements with support-lighthouse surfaces intended for installation with temporary support on them and temporary technological fixation a support platform for the fan motor, as well as for installing support plates for fixing the end sections of the cords and connecting plates placed between the support plates, at The volume of the slipway element under the support platform for the fan motor is predominantly annular in plan and has at least one horizontal lighthouse support surface, and the slipway elements for the support and connection plates are made mainly in the form of prism trapezoidal in vertical section with at least external an inclined face forming a beacon support surface, respectively, under the support and connecting plates of the central support element for the fan motor. 5. A slipway for manufacturing a heat-exchange section of an air-cooled gas cooling apparatus, characterized in that it comprises a support frame with intermediate and end technological supports located on it in two rows for fixing side walls and gas inlet and outlet chambers mounted at the ends of the section, each technological support has horizontal support platforms and at least part of the technological supports has racks mounted on them with at least one coordinate-lighthouse surface section the surface exposed to the dimension of the external surface of the corresponding wall of the section being manufactured, and not less than one end support from each end of the slip is provided with an upper coordinate-fixing element, and the contact surfaces of these elements at opposite ends of the slip are installed with a vertical difference of 0.002 to 0.009 working the length of the slipway without taking into account the total length of the specified coordinate-fixing elements, while each upper coordinate-fixing element is made cantilevered with a working length of cont an active surface corresponding to the width of the gas inlet or outlet chamber of the heat-exchange section being manufactured, and is provided at the free end of the limiter fixing the chamber in the design position along the length of the heat-exchange section to be manufactured. 6. The slipway according to claim 5, characterized in that the support frame is provided with transverse connecting elements, and the intermediate technological supports in opposite rows are arranged in pairs coaxially at the junctions of the ends of the connecting elements to the longitudinal elements of the slipway frame. 7. The slipway according to claim 6, characterized in that at least a portion of the transverse connecting elements is configured to adjust the relative position of the coordinate-lighthouse sections of the surface of the racks of the corresponding pair of intermediate supports, while the intermediate supports of one row are made stationary, and the corresponding intermediate supports another row are made adjustable movable. 8. The slipway according to claim 1, characterized in that the struts of the technological supports are made with predominantly external stiffeners. 9. A slipway for assembling and assembling a supply or exhaust manifold of a gas to be cooled by an air-cooled gas apparatus, characterized in that it comprises a support frame on which at least three lodgement supports are mounted to support the housing of the intake or exhaust manifold and to support the central tee section having a nozzle for connection to the gas pipeline, and at least four portal supports for temporary technological fixation along the plane, rotation angle and placement along the supply manifold body or from a gas ode of nozzles with flanges for connecting to the gas inlet or outlet chambers of the heat exchange sections of the gas air cooling apparatus is adequate to the location of the contact surfaces of the counterflanges and mounting holes in them in the gas inlet or outlet chamber, while at least two lodgement supports are placed with the possibility of supporting on them the body of the gas supply or exhaust manifold according to the cantilever-beam scheme, each mainly between a pair of portal supports installed under the extreme and adjacent pipe flanges for connection to the gas inlet or outlet chambers of the apparatus, wherein each lodgement support contains a bed with attachment points to the support frame and upper inclined support elements forming a bell-shaped lodgement with support sections oriented normally to the radii of a circle describing the outer contour of the gas supply or exhaust manifold body and spaced on opposite sides from the average vertical longitudinal plane of the manifold body for supplying or discharging gas, each at an angle of 20 to 65 ° in the direction from the bottom of the bunk the same circuit of the manifold inlet or outlet of the gas. 10. The slipway according to claim 9, characterized in that each portal support contains at least two spaced apart or differentiated gas supply manifolds and installed on the frame of the racks with aligned on the plane common for all racks of the portal supports of the slip upper supporting platforms for supporting the lower reference surface of the portal support beam on them and devices for fixing the beam in the desired position. 11. The slipway according to claim 9, characterized in that the beam of the portal support is made with a reference on a plane common to all beams of the portal supports of the slipway with at least a lower surface. 12. A slipway for manufacturing a central support element for a fan motor of an air gas cooling apparatus or a section thereof, characterized in that it comprises a system of elements with support-lighthouse surfaces intended for installation with temporary support on them and temporary technological fixation of the support platform under the fan motor , as well as for installing support plates for fixing the end sections of the strands and connecting plates placed between the supporting plates, while the slipway element the support platform for the fan motor is predominantly annular in plan and has at least one horizontal support-beacon surface, and the slipway elements for the support and connection plates are made mainly in the form of trapezoidal vertical sections of prisms with at least an external inclined face forming a supporting-lighthouse surface, respectively, under the supporting and connecting plates of the central supporting element under the fan motor, while the elements of the slipway under the opposite pairs The connecting plates of the central support element for the fan motor form at least the upper angles β and γ, at large β for elements oriented along the longitudinal axis of the gas air cooler and smaller γ for elements with oriented along the transverse axis of the apparatus or its section. 13. The slipway according to claim 12, characterized in that the slipway element under the bearing pad under the fan motor is provided with latches arranged in a plan around the circumference for temporary technological fastening of the bearing pad on it for the fan motor. 14. The slipway according to claim 12, characterized in that the outer radius R of the slipway element under the bearing pad for the fan motor is made less than the minimum distance L from the central vertical axis of the slipway to the outer edge of the bearing pad for the fan motor in the radial direction normal to the line of contact with the support area of the face of any of the inclined support plates for fixing the end sections of the cords and the connecting plates of the Central support element under the fan motor. 15. The slipway according to claim 12, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the support-beacon surface under the support plates of the central support element for the fan motor is made corresponding to the angle of inclination facing the supporting plate of the corresponding strand. 16. The slipway according to claim 12, characterized in that the angle between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is made large of the corresponding angles β and γ formed between the aforementioned plane and the lighthouse surfaces of the berth elements under any of the connecting plates of the central support element under the fan motor. 17. The slipway according to claim 12, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is 123.0 ° -141, 0 °. 18. The slipway according to claim 12, characterized in that the angle β between at least the upper plane of the slipway element under the support platform for the fan motor and slipway elements under the connecting plates oriented along the longitudinal axis of the apparatus or its section is (118.0 ÷ 132.0) °. 19. The slipway according to claim 12, characterized in that the angle γ between at least the upper plane of the slipway element under the support platform for the fan motor and the slipway elements for the connecting plates oriented along the transverse axis of the apparatus or its section is 113 ° -123 ° . 20. The slipway according to claim 12, characterized in that the angle α between at least the upper plane of the slipway element under the support platform for the fan motor and the reference beacon surface under the support plates of the central support element for the fan motor is 128.5 ° -136, 0 °, and the angles β and γ between the plane and the elements of the slipway under the connecting plates, oriented respectively along the longitudinal axis of the device or its section and along the transverse axis of the device or its section, are respectively 121.5 ° -128.0 ° and 116, 0 ° -120.0 .