RU38725U1 - TECHNOLOGICAL COMPLEX OF EQUIPMENT FOR THE PRODUCTION OF HEAT EXCHANGE BLOCKS OF BLOCK OR BLOCK-SECTION HEAT EXCHANGE TYPE OF REGENERATIVE AIR HEATERS - Google Patents

Abstract

The utility model relates to power engineering and can be used in the manufacture of heat exchangers, in particular, in the manufacture of heat transfer blocks of block or block-section heat exchangers. The technological complex of equipment for the manufacture of heat-exchange blocks of block or block-section heat exchangers such as regenerative air heaters contains a technologically related post for manufacturing tube boards, a post for manufacturing shell casings of collectors for supplying and discharging air, a post for bending pipes and an assembly post for heat exchanging blocks, and the post for bending pipes is technologically connected with an assembly post for heat exchange units with at least one stationary or movable device for a separate type measures of vertical storage of curved bundle pipes until they are packed into the unit, while the pipe bending station contains a pipe bending machine, a device for feeding it into the pipe bending zone and the mandrel with a rod, and also guides set out on the plane to ensure movements during bending of branches of a multi-bend pipe in one plane, and the assembly site of heat-exchange blocks contains at least two stocks, at least one of which is made for assembling the upper and intermediate blocks, and at least one for assembling the lower block of the block whether a block-section heat exchanger, moreover, the tube board manufacturing station includes a plasma and cutting equipment for cutting blanks for tube boards, technological equipment for cutting edges, including at least one planing and / or milling machine, a transport system for moving the workpieces machined and / or with prepared for welding the edges of the tube plates in the area of the holes for pipes, as well as a machine for making a system of holes for pipes with software placing coordination processes, sequences and modes of execution of the pipe holes. The technical result provided by the proposed utility model is to increase manufacturing efficiency.

heat-exchange blocks of block or block-section heat exchangers such as regenerative air heaters and separate technologically connected devices included in it.

Description

The utility model relates to power engineering and can be used in the manufacture of heat exchangers, in particular, in the manufacture of heat exchangers for block or block section heat exchangers such as regenerative air heaters.

Various devices for hanging pipes are known. For example, a suspension is known for hot-dip galvanizing pipes in a vertical unit (RU, No. 2032761 C1, C 23 C 2/06, 1995), including a spatial frame in the form of a rod of two inserts and connecting pipes, as well as a disk system .

Known mounting frame for assembling a product consisting of a central panel and side panels, while the mounting frame is designed to be installed in a predetermined relative position of the central panel and mounting sectors formed by connecting the side panels together, joint cutting holes for bolts and connecting the Central panel with mounting sectors with the installation of connecting plates around the perimeter of the product (RU, patent No.20101010, 1994).

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 mating 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 objective of the proposed utility model is to increase the efficiency of manufacturing heat transfer blocks of block or block-section heat exchangers such as regenerative air heaters and individual technologically connected devices included in it.

The problem is solved due to the fact that the technological complex of equipment for the manufacture of heat exchanger blocks of block or block-section heat exchangers such as regenerative air heaters, according to the proposed utility model, contains technologically connected post for manufacturing tube plates, a post for manufacturing shell shells for collectors for supply and exhaust air, post pipe bending and assembly post of heat-exchange blocks, and the pipe bending post is technologically connected with the assembly post of heat-exchange blocks e with less than one stationary or movable device for separate vertical storage of curved bundle tubes until they are packed into the unit, while the pipe bending station contains a pipe bending machine, a device for feeding it into the pipe bending zone and the mandrel with a bar, as well as guiding planes for ensuring movements during bending of branches of a multi-way bending pipe in one plane, and the assembly post for heat-exchange blocks contains at least two slipways, at least one of which is made for assembly in upper and intermediate blocks, and not less than one for assembling the lower block of a block or block-section heat exchanger, the tube plate manufacturing station includes a plasma and cutting equipment for cutting blanks for tube plates, technological equipment for cutting edges, including at least at least one planing and / or milling machine, a transport system for moving workpieces that are machined and / or with the edges of the tube plates prepared for welding to the area where the holes for the pipes are made, as well as a tank for performing a system of openings for pipes with software for coordinating the placement, sequence and modes of making holes for pipes.

Each of the slipways can be equipped with an adjustable fixing spatial and relative position of the air supply and exhaust manifold collector bodies with a portal frame with a removable portal beam attached to the axes of the air supply and exhaust manifold housings with coordinate support disks and a device for setting and fixing in

the design position of the tube plates in the shell of the casing of each of the air supply and exhaust manifolds.

The station for manufacturing shell shells of collector bodies may include a plasma for cutting metal sheets for blanks of shell shells for manifolds for supplying and removing air, planing equipment for cutting the edges of workpieces for welding, a tool for bending workpieces, welding edges and making an opening for a tube plate.

Plasma for cutting blanks for tube plates, at least partially, can be combined with a plasm for cutting metal sheets for shell blanks of air supply and exhaust manifolds of collectors, or at least made with the possibility of cutting metal sheets on it for blank shell casings air intake and exhaust manifolds.

The building berth for assembling the upper and intermediate heat-exchange blocks may contain a single-level plate installed on the frame for placement at a single mark, assembling and mounting frame elements and manifold supply and exhaust manifolds, as well as a portal frame mounted on the plate with a removable beam and additional supports with removable mounted on them coordinate-fixing elements for technological fixation of the bodies of the manifolds for supplying and discharging air, mounted in them tube boards, racks, beams and panel the first frame of the block, as well as the internal elements of the frame for supporting fixation of the distance elements of the bundle of heat transfer pipes.

The slipway for assembling the lower heat-exchange block may contain a lower level plate mounted on the frame to accommodate the block body frame with lower supports and an upper level plate installed above the plate by the height of the lower block supports to support the mounted block cases at the same level with the block bottom level as well as a portal frame mounted on a slab with a removable beam and additional supports with coordinate-fixing elements removably mounted on them for technological fixation of the whiskers air inlet and outlet manifolds are mounted in tube plates, struts, beams and framework unit panels, and internal frame members for fixing the supporting spacers bundle of heat exchange tubes.

The technical result provided by the proposed utility model is to increase the efficiency of manufacturing heat exchangers of block or block-section heat exchangers such as regenerative air heaters and individual technologically connected devices that are part of it due to the complex of technological equipment developed in the invention, which improves the accuracy and quality of assembly at at the same time reducing labor costs and time of manufacturing structures and increasing technological all the operations that ensure high reliability of manufactured structures while minimizing the material consumption of equipment and the complexity of its manufacture.

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

figure 1 shows a top view of the slipway for the assembly of the upper and intermediate heat exchange units;

figure 2 is the same side view;

figure 3 is a section aa of figure 1;

figure 4 shows a top view of the slipway for assembling the lower heat transfer unit;

figure 5 is the same side view;

Fig.6 is a section bB of Fig.4;

figure 7 shows a device for vertical storage, side view;

Fig.8 is the same end view;

Fig.9 is a bent pipe, a view in plan.

The technological complex of equipment for the manufacture of heat exchange blocks (not shown in the drawings) block or block-section heat exchangers of the type of regenerative air heaters contains a technologically related post for the manufacture of tube plates (not shown in the drawings), a shell manufacturing post (not shown in the drawings) of the collector bodies 1 air supply and exhaust, a post (not shown in the drawings), pipe 3 bending, and an assembly of heat exchange units (not shown in the drawings), and a pipe bending post (not yet shown in the drawings) ano) is technologically connected with the assembly site of heat-exchange blocks by at least one stationary or movable device 4 for separate vertical storage of bent pipes 3 of a bundle until they are packed into a block, while the pipe bending station (not shown) shows a pipe bending machine ( not shown in the drawings), device (not shown in the drawings)

for feeding pipes 3 and a mandrel with a rod (not shown in the drawings) to it, as well as guides set out on a plane (not shown in the drawings) to ensure movements when bending the branches of a multi-way bending pipe 3 in one plane, and the heat exchange assembly post blocks contains at least two stocks 5 and 6, at least one of which 5 is made for assembling the upper and intermediate blocks, and at least one 6 for assembling the lower block of a block or block-section heat exchanger.

Each of the slipways 5 and 6 is equipped with an adjustable fixing spatial and relative position of the bodies 1 of the collector 2 of the air supply and exhaust portal frame 7 with a removable portal beam 8 attached to it from the bottom side coaxially with the axes of the housing 1 of the collector 2 of the air supply and exhaust collector 2 coordinate support disks 9 and a device 10 for exposing and fixing in the design position of the tube plates 11 in the shell of the housing of each of the collectors 2 of the supply and exhaust air.

The station for manufacturing tube boards 11 includes a plasma (not shown in the drawings) and cutting equipment (not shown in the drawings) for cutting blanks (not shown in the drawings) for tube boards 11, processing equipment (not shown in the drawings) for cutting edges, including, at least one planing and / or milling machine (not shown in the drawings), a transport system (not shown in the drawings) for moving workpieces that are machined and / or with the edges of the tube plates 11 prepared for welding to the area of the holes for tr least as well as the machine (not shown) to perform system holes tube 3 with software placement coordination processes, sequences and modes of execution of the pipe hole 3.

The post (not shown in the drawings) for the manufacture of shells of the bodies 1 of the collector 2 of the air inlet and outlet includes a plasma (not shown) for cutting metal sheets for blanks (not shown in the drawings) of the shells of the bodies 1 of the collectors 2 of the air inlet and outlet, planing equipment ( not shown) for cutting the edges of the workpieces for welding, a fixture for bending workpieces (not shown in the drawings), welding the edges and making an opening for the tube plate 11.

Plasma for cutting blanks for tube sheets 11, at least partially

combined with a plasm for cutting metal sheets for the blanks of the shells of the shells 1 of the collector 2 of the air supply and exhaust, or at least made with the possibility of cutting metal sheets for blanks of the shells of the shells 1 of the collectors 2 of the air supply and exhaust.

The slipway for assembling the upper and intermediate heat-exchange blocks (not shown in the drawings) contains a single-level plate 13 mounted on the frame 12 for placement, assembly and installation of frame elements (not shown in the drawings) and collectors of the mounted block, as well as mounted on the plate 13 a portal frame 7 with a removable beam 8 and additional supports 14 with coordinate-fixing elements 15 removably mounted on them for technological fixing of the bodies 1 of the collectors 2 of the supply and exhaust air of the pipes mounted in them 11 boards, racks (not shown in the drawings), beams (not shown in the drawings) and panels (not shown in the drawings) of the block frame, as well as internal elements of the frame (not shown in the drawings) for supporting fixing of the distance elements (not shown in the drawings) shown) bundle of heat transfer tubes 3.

The slipway for assembling the lower heat-exchange block (not shown in the drawings) contains a lower level plate 16 mounted on the frame 12 to accommodate the frame of the case (not shown) of the block with lower supports 17 and installed by exceeding the height of the lower supports 17 of the block above this plate the top level plate 18 for supporting the mounted block housings (not shown in the drawings) at the same level with the level of the bottom of the block (not shown in the drawings), as well as the portal frame 7 mounted on the plate with a removable beam 8 and additional supports 14 with coordinate fixing elements 15 removably mounted on them for technological fixing of the bodies 1 of the collector 2 of the air inlet and outlet, tube plates 11 mounted therein, struts (not shown in the drawings), beams (not shown in the drawings) and panels (not shown in the drawings shown) the frame of the block (not shown in the drawings), as well as internal elements (not shown in the drawings) of the frame for supporting fixing the spacing elements (not shown) of the heat exchange tube bundle 3.

Claims (6)

1. The technological complex of equipment for the manufacture of heat exchangers for block or block-section heat exchangers such as regenerative air heaters, characterized in that it contains technologically connected post for manufacturing tube plates, a post for manufacturing shell shells for manifolds for supplying and discharging air, a post for bending pipes and a post for assembling heat exchangers blocks, and the pipe bending post is technologically connected with the assembly post of heat-exchange blocks by at least one stationary or movable device for vertical storage of bent tubes of a separate size until they are packed into the block, while the pipe bending station contains a pipe bending machine, a device for feeding it into the pipe bending zone and the mandrel with a rod, and guide rails set out on the plane to ensure movement during bending branches of a multi-way bendable pipe in one plane, and the assembly site of heat-exchange blocks contains at least two slipways, at least one of which is made for assembling the upper and intermediate blocks, and at least one for assembling the lower block of a block or block-section heat exchanger, the tube plate manufacturing station including a plasma and cutting equipment for cutting blanks for tube plates, technological equipment for edging, including at least one planing and / or milling machine, a transport system for moving workpieces that are machined and / or with the edges of the tube plates prepared for welding into the area of the holes for the pipes, as well as a machine for making the system of holes for pipes with rammnym ensuring placement coordination processes, sequences and modes of execution of the pipe holes. 2. The technological complex according to claim 1, characterized in that each of the slipways is equipped with an adjustable fixing spatial and relative position of the housing of the supply and exhaust manifolds of the portal frame with a removable portal beam with attached to it from the bottom side coaxially with the axes of the bodies of the supply and exhaust manifolds air coordinate support discs and a device for setting and fixing in the design position of the tube plates in the shell of the housing of each of the collectors for supplying and discharging air. 3. The technological complex according to claim 1, characterized in that the station for manufacturing the shells of the bodies of the manifolds for supplying and discharging air includes a plasma for cutting metal sheets for blanks of the shells of the bodies of the manifolds for supplying and discharging air, planing equipment for cutting the edges of the workpieces for welding, a bending tool blanks, edge welding and opening under the tube plate. 4. The technological complex according to claim 1, characterized in that the plasma for cutting blanks for tube sheets is at least partially aligned with the plasma for cutting metal sheets for blanks of shells of the manifolds for supplying and discharging air or, at least, made with the possibility of cutting on it also metal sheets for the blanks of the shells of the bodies of the inlet and outlet air manifolds. 5. The technological complex according to claim 1, characterized in that the slipway for assembling the upper and intermediate heat-exchange blocks contains a single-level plate mounted on the frame for placement on a single mark, assembling and mounting frame elements and collectors for supplying and removing air of the mounted unit, as well as installed on the plate, a portal frame with a removable beam and additional supports with coordinate-fixing elements removably mounted on them for technological fixation of the bodies of the intake and exhaust manifolds, mount Rui in these tube plates, struts, beams and framework unit panels, and internal frame members for fixing the supporting spacers bundle of heat exchange tubes. 6. The technological complex according to claim 1, characterized in that the slipway for assembling the lower heat exchange unit comprises a lower level plate mounted on the frame for placing the block body frame with lower supports and installed with an excess of the height of the lower block supports of the upper level plate above this plate for supporting mounted blocks of the block at the same level with the level of the bottom of the block, as well as a portal frame mounted on a plate with a removable beam and additional supports with coordinate-fixing removably mounted on them E elements for fixing the casings technological air inlet and outlet manifolds are mounted in tube plates, struts, beams and framework unit panels, and internal frame members for fixing the supporting spacers bundle of heat exchange tubes.