SU1749656A1 - Heat exchanger - Google Patents

Abstract

SUMMARY OF THE INVENTION: Improved reliability is provided by sealing between the shell 7 and the housing 1 of the labyrinth-slit and placing it in the zones of the first and the last partitions 5 9 2 h. ff, 3 silt

Description

Figz

The invention relates to heat engineering, primarily to ship-based power plant engineering, and more specifically to ship oil and water coolers.

A heat exchanger is known, which contains a bundle of pipes with transverse partitions, an inner and outer housing with openings for passage of heat-transfer fluid and seals installed at the exit of the heat-transfer fluid, and the outer body is made with connectors at the places of installation of the seals.

Such heat exchangers are applicable in transport engineering, in locomotives, where the pressure in the annular space does not exceed 1-2 kgf / cm2. In ship heat exchangers with the pressure of the cooled medium from 16 to 42 kgf / cm, this technical solution will lead to an increase in mass and dimensions, will decrease reliability during operation due to additional connectors and the fragility of the seals.

Closest to the present invention, there is a heat exchanger comprising a casing with an inlet and outlet for the annular medium, a bundle of heat exchanging tubes with transverse partitions, fixed in a tube sheet and enclosed in a shell, between which and the casing is placed a seal.

The disadvantage of this apparatus is the presence of a gap between the casing and the shell on the input side of the annular medium, which makes it unacceptable during operation with certain thermal conditions. In addition, the available gasket seal has low reliability and requires systematic monitoring and replacement.

The aim of the invention is to increase reliability.

This goal is achieved by the fact that in a heat exchanger comprising a housing with an inlet and outlet for the annular medium, a bundle of tubes with transverse partitions enclosed between tube sheets and a shell, and a seal between the shell and a shell, the shell in the zone of the partition in front of the inlet of the medium has a laby - tint-slit seal, and at the outlet of the medium has a slit seal with the tube sheet.

In addition, the shell may have in the area of the last partition before the exit of the environment labyrinth-gap seal and ring winding along its entire length.

FIG. 1 shows the heat exchanger of the proposed design, a general view; in fig. 2

- node I in FIG. one; in fig. 3 - node II in FIG. 1, option

The heat exchanger includes a housing 1 with nozzles of the inlet 2 and outlet 3 of the tube

environment, a bundle of heat exchange tubes 4 with transverse partitions 5, enclosed between the tube sheets 6 and the shell 7, the labyrinth-gap seal 8, the annular winding 9.

During operation, the cooled medium enters through the nozzle 2 of the entrance into the annular space of the housing 1, partly the medium is guided between the housing 1 and the shell 7, but, meeting resistance in

labyrinth gap and gap seals, is directed through the cutout in the partition 5 into the next compartment enclosed by the shell 7. Passing through all the compartments, the medium is directed to the outlet 3.

Thus, the presence of a labyrinth-gap seal between the shell and the body in the area of the partition before the entrance of the medium and the gap seal between the shell and the tube sheet at the exit

environment and, in addition, the presence of a labyrinth-slit seal in the region of the last partition before the medium exit and ring winding along the entire length of the shell increases the reliability of the apparatus during

operation time.

Reliability of the heat exchanger will be provided for the entire period of its operation.

Claims (3)

1. The heat exchanger, comprising a housing with an inlet and outlet for the annular medium, a bundle of heat exchange tubes with transverse partitions, fixed in tube lattices and enclosed in a shell placed between them, and a seal between the housing and the shell, characterized in that, in order to increase reliability, the seal is labyrinth-slotted and placed in the zone of the partition from the annular medium first, and the annular shell on the outlet side of the annular medium additional slit seal with tube sheet. 2. A heat exchanger according to claim 1, distinguishing it with the fact that it is equipped with an additional labyrinth-gap seal between the body and the shell, placed in the zone of the latter before the separation of the annular medium of the partition, 3. The heat exchanger on the PP. 1 and 2, characterized in that the shell is provided with an annular winding placed along its length from the outside. Medium outlet Phie.1 FIG. 2