RU2266471C1 - Building berth for assembling heat-exchange block of heat-exchange apparatus like regenerative air heater - Google Patents

Abstract

FIELD: power engineering, manufacturing of heat exchange apparatuses.

SUBSTANCE: device has plate mounted on frame. On aforementioned plate additional pair of posts is mounted with detachable upper portal beam. Portal beam has pairs of bearing devices mounted along its length. Outmost ones of those are positioned coaxially to axes of posts of portal frame, and bearing devices of middle pair positioned between them are mounted coaxially to central vertical axes of collectors for injection or drainage of air and each one is provided with coordinate-bearing disk connected to it on lower side of portal beam for technological holding of ends contour and spatial position of body of appropriate collector for injection or drainage of air in process of assemblage and mounting of block. On aforementioned plate two additional posts are mounted with levels of detachable beams mounted thereupon within height limitations of pipe boards, having coordinate elements adjustably positioned one them with bearing-marking vertical surfaces, of checked plane position and meant for holding and control of position of pipe boards of block collectors. On building berth plate additional posts mounted in pairs along length of building berth are positioned, meant for technological holding of mounted posts of block frame.

EFFECT: optimized technological process of manufacturing of heat exchange block of heat exchange apparatus, higher precision of mounting and assemblage of elements of heat exchange block with decreased laboriousness of operations and lower metal cost of construction.

7 cl, 3 dwg

Description

The invention relates to power engineering and can be used in the manufacture of heat exchangers, in particular in the manufacture of regenerative air heaters.

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 device for assembling and welding a shell from segments is known, including devices that secure the segments in the required mutual position with gaps (SU, copyright certificate No. 770703.1980).

Known devices cannot provide assembly and welding of products having a central element and peripheral elements attached to the central element at various angles to its surface with the formation of a socket.

The objective of the present invention is to develop the design of the slipway, which optimizes the manufacturing process of manufacturing a heat exchange unit of a heat exchanger type regenerative air heater, increasing the accuracy of installation and assembly of the elements of the unit while reducing the complexity of the work performed.

The problem is solved due to the fact that the slipway for assembling a heat exchanger block of a heat exchanger type regenerative air heater, according to the invention, contains a plate mounted on the frame for assembling and mounting at least a block frame with a combined displacer of the annular heat exchange medium and having pipe tubes installed in cylindrical bodies boards with air supply and exhaust manifolds installed on the plate forming a portal frame a pair of racks with a removable upper portal beam, an integral pair of uprights with tiers installed on them within the height of the tube plates with removable beams having coordinate elements adjustable on them with support-lighthouse vertical surfaces aligned on the plane and designed to fix and control the position of the tube plates of the block supply and exhaust manifolds, and additional racks installed in pairs along the length of the slipway for technological fixation of the mounted racks of the block frame, while the portal beam has two pairs installed along its length supporting devices, the most extreme of which are located coaxially with the axes of the struts of the portal frame, and the supporting devices of the middle pair located between them are installed coaxially with the central vertical axes of the air supply and exhaust manifolds, and each of them is equipped with a coordinate support disk attached to it from the lower side of the portal beam for the technological fixing the contour of the ends and the spatial position of the housing of the corresponding manifold for supplying or removing air during assembly and installation of the unit.

The portal frame can be located on the slipway plate in a vertical plane passing through the central vertical axis of the block air inlet and outlet collectors, and the width of the slipway plate can be taken from the condition of placement of the portal frame racks and their supporting parts outside the dimensions of the mounted block.

The upper removable beam can be installed on additional racks with the possibility of technological contact with the outer surface of the upper pritortsevoy section of the tube plate.

The lower removable beam can be installed on additional racks with the possibility of technological contact with the outer surface of the lower pritortsevoy section of the tube plate.

The number of tiers of the removable beams can be at least three, while the beam of the intermediate tier or the beams of the intermediate tiers can be located along the height of the tube plates equidistantly.

Coordinate elements with support-lighthouse surfaces, at least on a part of the tiers, can be spaced along the length of the removable beam and made by a number of at least four, and they are distributed along the length of the beam with the location of at least each pair of the outermost ones within the pipe boards.

At least three coordinate elements with support-lighthouse surfaces can be located in the area adjacent to the displacer of the annular heat transfer medium.

The technical result provided by the invention is to optimize the manufacturing process of manufacturing a heat exchange unit of a heat exchanger of the type of a regenerative air heater, to increase the accuracy of installation and assembly of the elements of the heat exchange unit while reducing the complexity of the work performed and reducing the metal consumption of the structure.

The invention is illustrated by drawings, which depict:

figure 1 shows a top view of the slipway for the manufacture of a heat exchange unit of a heat exchange apparatus such as a regenerative air heater;

figure 2 is the same side view;

figure 3 is a section aa of figure 1.

A building frame for assembling a heat exchange unit (not shown in the drawings) of a heat exchanger of the regenerative air heater type includes a plate 2 mounted on the frame 1 for assembling and mounting at least a block frame with a combined displacer of the annular heat exchange medium and having tube boards 4 installed in cylindrical bodies 3 manifolds of inlet 5 and exhaust 6 installed on the plate forming a portal frame 7 a pair of racks 8 with a removable upper portal beam 9, an additional pair of racks 10 s installed on them, in tiers within the height of the tube plates 4, removable beams 11 having coordinate elements 12 that are adjustable and mounted on them with vertical support beacon surfaces, designed to fix and control the position of the tube plates 4 of the supply manifold 5 and block 6 air outlet 6 , and additional racks 13 installed in pairs along the length of the slipway for technological fixation of mounted racks of the block frame (not shown in the drawings).

The portal beam 9 has two pairs of support devices 14 installed along its length, the extreme of which are located coaxially with the axes of the struts of the portal frame 7, and the supporting devices 14 between them of the middle pair are installed coaxially with the central vertical axes of the inlet 5 and air exhaust manifolds 6 and each of them equipped with a coordinate-supporting disk 15 attached to it from the bottom of the portal beam 9 for technological fixation of the contour of the ends 16 and the spatial position of the housing 17 of the corresponding supply manifold 5 or yes 6 air in the process of assembly and installation of the unit.

The portal frame 7 is located on the plate of the slipway 2 in a vertical plane passing through the central vertical axis of the collectors of the supply 5 and exhaust air 6 of the unit.

The width of the slab plate 2 is taken from the conditions for placing the struts 8 of the portal frame 7 and their supporting parts outside the dimensions of the mounted unit.

The upper removable beam 9 is installed on additional racks 10 with the possibility of technological contact with the outer surface of the upper side of the front section of the tube plate 4.

The lower removable beam 11 is installed on additional racks 10 with the possibility of technological contact with the outer surface of the lower pritortseva section of the tube plate 4.

The number of tiers of removable beams 11 is at least three. The beam of the intermediate tier or the beams of the intermediate tiers are located along the height of the tube plates 4, preferably equidistantly.

Coordinate elements with lighthouse surfaces are at least part of the tiers spaced along the length of the removable beam 11 and are made of at least four, and they are distributed along the length of the beam 11 with the location of at least each pair of the outermost ones within the pipe boards 4.

At least three coordinate elements with supporting beacon surfaces are located in the zone adjacent to the displacer of the annular heat exchange medium.

Claims (7)

1. A slipway for assembling a heat exchanger block of a heat exchanger of the type of a regenerative air heater, characterized in that it comprises a plate mounted on the frame for assembling and mounting at least a block frame with a combined displacer of the annular heat exchange medium and having supply manifolds installed in cylindrical casings and air exhaust installed on the plate forming a portal frame a pair of racks with a removable upper portal beam, an additional pair of racks with installed and them, in tiers within the height of the tube plates, with removable beams having coordinate elements that are adjustable and fixed on them with vertical lighthouse surfaces, aligned along the plane and designed to fix and control the position of the tube plates of the block supply and exhaust manifolds, and installed in pairs along the length of the slipway additional racks for technological fixation of mounted racks of the block frame, while the portal beam has two pairs of supporting devices installed along its length, the last of which are located coaxially with the axes of the struts of the portal frame, and the supporting devices of the middle pair located between them are installed coaxially with the central vertical axes of the air supply and exhaust manifolds and each of them is equipped with a coordinate-supporting disk attached to it from the bottom of the portal beam for technological fixation of the ends and the spatial position of the housing of the corresponding manifold supply or exhaust air in the process of Assembly and installation of the unit. 2. The slipway according to claim 1, characterized in that the portal frame is located on the slipway plate in a vertical plane passing through the central vertical axis of the block supply and exhaust manifolds, and the width of the slipway plate is adopted from the condition of placement of the struts of the portal frame and their supporting parts outside dimensions of the mounted unit. 3. The slipway according to claim 1, characterized in that the upper removable beam is mounted on additional racks with the possibility of technological contact with the outer surface of the upper pritortsevoy section of the tube plate. 4. The slipway according to claim 1, characterized in that the lower removable beam is mounted on additional racks with the possibility of technological contact with the outer surface of the lower pritortsevoy section of the tube plate. 5. A slipway according to any one of claims 1, 3 and 4, characterized in that the number of tiers of the removable beams is at least three, while the intermediate tier beam or the intermediate tier beams are preferably equidistant along the height of the tube plates. 6. The slipway according to claim 1, characterized in that the coordinate elements with supporting-lighthouse surfaces are at least part of the tiers spaced along the length of the removable beam and are made of at least four, and they are distributed along the length of the beam with an arrangement of at least at least each pair of extreme ones within the tube plate. 7. The slipway according to claim 6, characterized in that at least three coordinate elements with support-lighthouse surfaces are located in the area adjacent to the displacer of the annular heat transfer medium.

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