SU1746186A1 - Method for manufacture of tube-in-tube heat exchange element - Google Patents

Abstract

Usage: in refrigeration, in particular in heat exchangers with a buffer zone in cooling systems with high-temperature working media. SUMMARY OF THE INVENTION: The method is performed by cutting helical grooves on the inner surface of the outer pipe and protrusions on the outer surface of the inner pipe and then placing the inner pipe along the outer axis to form a buffer zone from the screw channels. In the inner tube are additionally cut symmetrically arranged longitudinal slots connected to the channels. 5 yl

Description

The invention relates to refrigeration and can be used in heat exchangers with a buffer zone in cooling systems with high-temperature working environments.

A known method of manufacturing heat-exchange elements of the pipe-in-pipe type by making helical grooves on the inner surface of the outer pipe and the corresponding protrusions on the outer surface of the inner pipe with the formation of a buffer channel between the pipes in the form of a screw channel.

However, this method is technologically complex, since before the screw channel is made, the outer and inner pipes need to be coaxial with minimal displacement, which requires the use of special equipment and accessories. This leads to an increase in material costs and complexity of assembly. The screw channel is knurled, so it can have

unequal cross-sections along the helix and has a high hydraulic resistance when liquid or gas passes through it into the buffer zone, which reduces the operational reliability of a pipe-type element in a pipe.

The aim of the invention is to improve the technology when using elements for heat exchangers with a buffer zone.

For this, in the method of manufacturing a heat exchange element of the tube type in the tube, the grooves of the outer tube and the protrusions of the inner tube are made by cutting threads of the same average diameter, then symmetrically arranged longitudinal slots communicated with the screw channel cavity are cut through the inner tube the outer pipe is wrapped, after which both pipes are deformed to a flat-oval shape.

FIG. 1 shows the inner tube before deformation; in fig. 2 - heat exchange

Yo

Xj

About 00

with

pipe type element in a pipe before deformation; in fig. 3 - heat exchange element of the type of pipe in the pipe after deformation; in fig. 4 is a section A-A in FIG. 3; in fig. 5 is an external view with a partial cut-out of a deformed heat exchange element of the tube-in-tube type.

A method of manufacturing a heat exchange element such as a pipe in a pipe is carried out by making helical grooves 1 on the inner surface of the outer pipe 2 and corresponding protrusions on the outer surface of the inner pipe 3 to form a buffer channel between the pipes 4. The grooves of the outer pipe 2 and the protrusions of the inner pipe 3 are made by cutting threads 5 of the same average diameter. Then along the entire length of the inner pipe 3, symmetrically arranged longitudinal slots 6 and 7 are cut through, communicated with the cavity of the screw channel. An outer tube 2 is screwed onto the inner tube 3, after which both tubes 2 and 3 are deformed to give them a flat-oval shape,

The method of manufacturing a heat exchange element of the pipe-in-pipe type is very simple.

Claims (1)

Threading and deformation of the element does not present any particular difficulty and does not require special equipment. The outer 2 and inner 3 pipes have good thermal contact along the threaded surface. Buffer zone with slots connected to each turn of the screw channel. The invention method of manufacturing a heat exchange element of the type of pipe in the pipe by making helical grooves on the inner surface of the outer pipe and the corresponding protrusions on the outer surface of the inner pipe with the formation between the pipes of the buffer zone in the form of a screw channel, characterized in that, the outer tube and the protrusions of the inner tube are made by cutting the threads of the same average diameter, then along the entire length of the inner tube they are cut symmetrically The longitudinal splines communicated with the cavity of the screw channel, after which the outer pipe is screwed onto the inner pipe and both pipes are deformed into a flat-oval shape. Smg / teJ FIG. 2 And EZP Wu & 4 Schi 5