SU756173A1 - Heat exchanger - Google Patents

Description

The invention relates to heat exchangers used primarily in compressor installations as refrigerators installed for cooling compressible ⁵ in the steps of gas and air compressors.

Known heat exchangers containing intersecting bundles of pipes placed in parallel rows and ^{1 and} fortified in tube sheets [T | .

The lack of these heat exchangers, despite the modular, partitioned implementation of the tubular system, is labor-intensive installation — 15 dismantling works, the difficulty of connecting tube grids, as in each individual modular tubular system, in which the grids are located at a right angle one relatively different and adjacent sections located at the height of the heat exchanger.

A heat exchanger is known, containing mutually intersecting tube bundles, * * * placed in parallel rows and fortified in tube sheets, and end caps £ 2].

The disadvantage of this heat exchanger is low technology - 30

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of its manufacture, the duration of its installation and dismantling due to the execution of tube sheets common to the parallel rows of pipes.

The purpose of the invention is to ensure the unification and facilitation mannazhno-dismantling works.

The goal is achieved by the fact that each of the beams is fixed in an individual lattice, provided around the periphery of the beam with grooves, through which adjacent lattices are connected by a locking joint to form a modular tubular system, with the height of the grooves equal to half the distance between the rows of pipes, and in the covers there are holes coaxially to tubes of beams with a step equal to twice the step of the tubes in the beam, and plugged with traffic jams.

FIG. 1 shows one of the modular tubular systems of the described heat exchanger; in fig. 2 is a view along arrow A of FIG. 1 with a break; in fig. 3 - described heat exchanger, general view; in fig. 4 shows the modular tubular system of the described heat exchanger in axonometry.

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756173

The heat exchanger consists of modular tubular systems, each of which contains pipes 1 and 2, reinforced respectively in tube sheets 3, 4 and 5, 6, provided with grooves 1, and connected to end caps 8, having., Holes plugged with plugs 9, and forming collector chambers 10. Modular tubular systems. connected to each other by means of gaskets 11 and attached to a buffer tank 12 fitted with a flange 13, and to an oil separator 14 having a flange 15. Flanges 13 and 15 are connected by studs 16. The container 12 is equipped with a nozzle 17 for supplying compressed gas, the oil separator 14 - a connecting pipe 18 for evacuating the cooled gas, the flange 13 is connected to the pipe 19 for supplying a cooling medium, for example water, the flange 15 is connected to the pipe 20 for draining a cooling medium, for example water.

The heat exchanger operates as follows.

Hot gas or air enters through the nozzle 17 into the buffer tank 12 into the annular space and is discharged through the nozzle 18. Water is flowed countercurrently into pipes 1 and 2 through the nozzle 19 and removed from the heat exchanger through the nozzle 20. The heat exchanger from standardized modular tubular systems will allow automate the production process

manufacturing and assembly of heat exchangers, as well as simplify their operation.

Claims (1)

Claim A heat exchanger, д containing a deaime 'but intersecting trushes of beams, arranged in parallel rows and reinforced in tube sheets, and end caps, distinguished by the fact that, in order to ensure • About unification and facilitation of assembly and dismantling works, each of the beams is fixed in an individual tube sheet, provided along the periphery of the beam bundle with grooves, through which 15 adjacent lattices are interlocked with a modular tubular system, the height of the grooves is half the distance between the rows of pipes, and the lids have holes arranged coaxially with the pipes of the beams with a pitch equal to twice the pitch of the pipes in the beam and blocked with traffic jams.