RU41850U1 - STAPEL FOR MANUFACTURING THE GAS SUPPLY OR GAS COLLECTOR GAS AIR COOLING UNIT - Google Patents

Abstract

The utility model relates to a power system, in particular, to devices for manufacturing gas supply or exhaust manifolds for gas air-cooling apparatuses. A slipway for manufacturing a gas supply or exhaust manifold for an air-cooled gas cooling apparatus contains a support frame on which at least three lodgement supports are installed to support the gas supply or exhaust manifold housing and to support a pipe connected to it for connection to a gas pipeline, and at least four portal supports for temporary technological fixation on the plane, angle of rotation and placement along the manifold body of gas supply or exhaust pipes with flanges for connection to the inlet or outlet chambers for heat-exchange sections of the gas air-cooling apparatus is adequate to the location of the contact surfaces of the mating flanges and the mounting holes in them in the gas inlet or outlet chamber, while at least two lodgement supports are placed with the possibility of supporting the gas supply manifold or exhaust manifold casing on them via a console beam scheme, each mainly between a pair of portal supports installed under the extreme and adjacent flanges of the nozzles for connection to the gas inlet or outlet chambers, which is equipped with it for temporary fixing on the corner and the plane of rotation of the corresponding pipe flange and attaching it to the housing inlet or gas outlet manifold design position. The technical result provided by the utility model consists in simplifying the construction of the slipway while ensuring high accuracy of manufacturing a manifold for supplying or removing gas from an air-cooled gas apparatus due to the design of the slipway and its elements developed in the utility model.

Description

The utility model relates to a power system, in particular, to devices for manufacturing gas supply or exhaust manifolds for gas air-cooling apparatuses.

A slipway for assembling volumetric aggregates is known, comprising lower adjustable lodgements, a slipway plate with locking pins and sliding technological rods with stop-racks and screw jacks, while before installing into the slipway, sliding rods are installed on the elements of the upper section of the volumetric assembly to be assembled, provided with oriented downwards stop racks on which screw jacks are installed, then docking plates are attached to the mating elements of the lower section of the assembled unit, the upper section in the slipway, ensuring the coincidence of the elements of the upper and lower sections and the contact of all the struts, stops with floor beams, fix the upper section on the slip plate, and the combination of the mounting base holes in the joined elements of the upper and lower sections is adjusted by the length of the sliding rods and moving by means of a jack support racks (RU, No. 2123965, B 64 F 5/00, 1998).

The closest analogue is the slipway for assembling and assembling equipment for assembling assemblies (RU, No. 2079421, 64 F 5/00, 1997), including a frame with reference platforms and racks, a rigid tool beam with rows of basic coordinate holes, rigid carriers of aggregate sizes - mounting standards, while rigid media of sizes are interconnected, and tooling elements are mounted by means of a tool beam with basic coordinate holes that are specified from the construction axes of the assembled units.

The disadvantage of these analogues, including the closest analogue, is the complexity and high complexity of installation and the inability to manufacture devices that are a vessel operating under pressure.

The objective of this utility model is to develop a construction of a slipway, which will optimize the manufacturing process for manufacturing a gas supply or exhaust manifold for an air-cooled gas cooler, increase the accuracy of installation and assembly of gas supply or exhaust manifold collector elements while reducing the complexity of the work performed.

The problem is solved due to the fact that the slipway for the manufacture of a gas supply or exhaust manifold for an air-cooled gas cooling apparatus contains a support frame on which at least three lodgement supports are installed to support the gas supply or exhaust manifold housing and to support a pipe connected to it for connection with a gas pipeline, and at least four portal supports for temporary technological fixation along the plane, angle of rotation and placement along the manifold body of the gas supply or exhaust pipes with flanges For attaching to the gas inlet or outlet chambers of the heat-exchange sections of the gas air-cooling apparatus, it is adequate to the contact surfaces of the counterflanges and mounting holes in them in the gas inlet or outlet chamber, at least two lodgement supports are placed with the possibility of supporting the collector body on them gas inlet or outlet 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 inlet chambers Whether the gas outlet.

Each portal support can be made with a removable beam, which is equipped with a device for temporary fixation on the plane and angle of rotation of the flange of the corresponding pipe and attaching it to the body of the gas supply or exhaust manifold in the design position. Each portal support may contain at least two gas supply or exhaust manifolds spaced apart on different sides of the manufactured housing of the manifold and mounted on the frame of the racks with aligned on the plane common to all racks of the portal supports of the berth, reference upper supporting platforms for supporting the lower reference surface of the beam on them portal support and devices for fixing the beam in the desired position.

Each lodgement support may contain a frame with attachment points to

supporting frame and upper inclined supporting elements forming a bell-shaped lodgement with bearing sections oriented normally to the radii of a circle describing the outer contour of the manifold of the gas supply or exhaust manifold and spaced apart on different sides from the average vertical longitudinal plane of the manifold housing of the gas inlet or outlet 20 to 65 ° in the direction from the lower point of the outer contour of the manifold of the gas inlet or outlet.

The portal support beam can be made with a reference on a plane common to all beams of the portal supports of the slipway with at least the lower surface, and the device for temporary fixation along the plane and the angle of rotation of the flange designed to connect to the gas supply or exhaust manifold is made, for example, in the form of a plane fixed on the beam and verified according to the mentioned parameters and the rotation angle are adequate to the same parameters of the corresponding flange of the gas inlet or outlet chamber.

The technical result provided by this utility model is to optimize the manufacturing process for manufacturing a gas supply or exhaust manifold for a gas air cooling apparatus, to increase the accuracy of installation and assembly of gas supply or exhaust manifold collector elements while reducing the laboriousness of the work performed due to the design implementation developed in the utility model slipway and its elements.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows the main view of the slipway for the manufacture of a manifold supply or removal of gas ABO gas;

figure 2 is the same side view;

figure 3 is a view along arrow a in figure 2;

figure 4 is a section bB in figure 3.

The gas supply or exhaust manifold of the gas air-cooling apparatus is a pressure vessel and includes a cylindrical body 1, a nozzle 2 for connecting to a gas pipeline and a nozzle 3 for connecting to the gas inlet or outlet chambers of the heat-exchange sections of the gas air-cooling apparatus, located on both side of the central

the transverse plane of symmetry of the cylindrical body 1 of the manifold supply or exhaust gas.

A slipway for manufacturing a gas supply or exhaust manifold for a gas air cooling apparatus comprises a support frame 4 on which at least two lodgement supports 5 are mounted to support the housing 1 of the gas supply or exhaust manifold and a lodgement support 6 for supporting the nozzle 2 connected to it for connection to the gas pipeline. At least four portal supports 7 of the supports are also fixed on the supporting frame 4 for temporary technological fixation of the flanges of the nozzles 3 along the plane, angle of rotation, and placement along the body 1 of the gas supply or exhaust manifold of the nozzles 3 with flanges for connecting to the gas inlet or outlet chambers adequately to the contact surfaces of mating flanges and mounting holes in them in the gas inlet or outlet chamber.

At least two lodgement supports 5 are placed with the possibility of supporting the body 1 of the gas supply or exhaust manifold according to the cantilever beam scheme, each mainly between a pair of portal supports 7 mounted under the extreme and adjacent flanges of the nozzles 3 for connection to the inlet chambers or gas outlet.

Each portal support 7 is made with a removable beam 8, which is equipped with a device 9 for temporary fixation on the plane and angle of rotation of the flange of the corresponding pipe 3 and attaching it to the housing 1 of the collector for supplying or discharging gas in the design position.

Each portal support 7 may contain at least two gas supply or exhaust manifolds spaced apart on different sides of the manufactured housing 1 and installed on the frame 4 racks 10 with aligned on a plane common to all racks of the portal supports 7 of the slipway, the reference upper bearing pads 11 for supporting on them lower reference surface of the beam 8 of the portal support 7 and devices 12 for fixing the beam 8 in the desired position.

Each lodgement support 5 may include a bed 13 with attachment points 14 to the support frame 4 and upper inclined support elements 15, forming a bell-shaped lodgement with support sections oriented normally to the radii of a circle describing the outer contour of the section

the housing 1 of the manifold for supplying or discharging gas or pipe 2, and spaced apart on opposite sides from the average vertical longitudinal plane of the housing 1 for the manifold for supplying or discharging gas or pipe 2, each at an angle of 20 to 65 °, in the direction from the lower point of the outer contour of the manifold housing 1 gas inlet or outlet 2.

The beam 8 of the portal support 4 can be made with a reference on the plane common to all beams of the portal supports of the slipway with at least a lower surface 16, and a fixture 9 for temporary fixation on the plane and the angle of rotation of the flange, designed to be connected to the inlet or outlet collector gas, made, for example, in the form of a plane fixed on the beam 8 and verified according to the aforementioned parameters, the plane and the angle of rotation are adequate to the same parameters of the corresponding flange of the gas inlet or outlet chamber.

The manufacture of a gas supply or exhaust manifold for an air-cooled gas cooler in a slipway is as follows.

The cylindrical housing 1 of the gas supply or exhaust manifold with a pipe 2 for connection with a gas pipeline, mainly made as a single technological element with the housing 1, is installed on the lodgement supports 5 with the beams 8 removed so that the gas supply or exhaust manifold collector case 1 is on the extreme lodgement supports relies on a cantilever beam scheme.

The flanges of the nozzles 3 are attached to the removable beam 8 for connection to the gas inlet or outlet chambers and the removable beams 8 with nozzles 3 are mounted on the struts 10 of the portal supports 7 and fixed by means of devices 12 for fixing the beam in the required position. Next, using the device 9, fix the flange of the pipe 3 in the plane and angle of rotation and weld it in the design position.

The slipway allows you to optimize the process and reduce the complexity of manufacturing a gas inlet or outlet manifold while ensuring high precision installation of nozzles for connection to the gas inlet or outlet chambers on the cylindrical body 1 of the gas inlet or outlet manifold along a plane and a given angle.

Claims (4)

1. A slipway for manufacturing a gas supply or exhaust manifold for an air-cooled gas cooling apparatus, characterized in that it comprises a support frame on which at least three lodgement supports are installed to support the gas supply or exhaust manifold housing and to support a pipe connected to it for connection to a gas pipeline and at least four portal supports for temporary technological fixation along the plane, angle of rotation and placement along the manifold body of gas supply or exhaust pipes 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 counter flanges and the mounting holes in them in the gas inlet or outlet chamber, at least two lodgement supports are placed with the possibility of supporting the supply or exhaust manifold bodies on them gas 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. 2. The slipway according to claim 1, characterized in that each portal support is made with a removable beam, which is equipped with a device for temporary fixation on the plane and angle of rotation of the flange of the corresponding pipe and connecting it to the body of the gas supply or exhaust manifold in the design position and does not contain less than two spaced apart on different sides of the manufactured body of the gas supply or exhaust manifold and mounted on the frame of the racks with aligned on the plane common to all racks of the portal supports of the slipway, reference upper polar platforms for supporting them on the bottom surface of the reference beam and portal support means for fixing the beam in the desired position. 3. The slipway according to claim 1, characterized in that 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 supply or withdrawal collector body gas 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 lower point of the outer contour of the housing projector of inlet or gas outlet. 4. The slipway according to claim 2, characterized in that the portal support beam is made with a reference on a plane common to all beam support portal beams at least with a lower surface, and a device for temporary fixation along the plane and the angle of rotation of the flange intended for connection to the gas inlet and outlet collector, for example, is made in the form of a plane attached to the beam and verified according to the mentioned parameters — the plane and the angle of rotation — corresponding to the same parameters — the corresponding flange of the gas inlet or outlet chamber.