RU2133004C1 - Heat exchanger - Google Patents

Abstract

FIELD: heat supply systems for buildings. SUBSTANCE: proposed heat exchanger has identical heat exchange sectors in the form of bunches of pipes confined in enclosures connected to collector chambers manufactured in the form of shells with flanges attached to tube lattice placed between them. Each shell has shape of section of cylinder with cross-section in the form of segment or semicircle having diameter not less than diameter of enclosure of heat exchange section. Partitions in cross-section may have stepped form with wider section adjoining lattice. Heat exchanger can have hinges that decrease labor input during repair or cleaning of heat exchange pipes. This heat exchanger can be assembled from unified members. EFFECT: reduced expenditures for manufacture, erection and operation . 3 cl, 3 dwg

Description

 The invention relates to heat exchangers, used mainly in heat supply systems of buildings and in other industries.

 Known heat exchanger containing a housing with modules installed inside in the form of bundles of heat transfer tubes, each of which is enclosed in a casing [1].

 The disadvantages of the known heat exchanger include its increased metal consumption and overall dimensions.

 A heat exchanger is known that contains identical heat-exchange sections in the form of bundles of pipes enclosed in cylindrical casings with partitions that are connected to common collector chambers for pipe and annular media, made in the form of shells with flanges fastened to the tube sheet located between the chambers. Perpendicular to the lattice, radial partitions are installed to form compartments communicating adjacent sections with each other [2].

 This device is the closest in technical essence to the described technical device.

 A disadvantage of the known device is its increased overall dimensions and the complexity of manufacturing associated with an insufficient number of standardized elements.

 These disadvantages are eliminated by the fact that in a heat exchanger containing identical heat-exchange sections, in the form of tube bundles enclosed in cylindrical casings, which are connected to common collector chambers of the pipe and annular media, made in the form of shells with flanges fastened to the tube sheets located between the chambers, perpendicularly with which partitions are installed, forming compartments communicating adjacent sections, the outer parts of the shells of the chambers of the pipe and annular media are made in the form of a section of a cylinder with a transverse a section in the form of a segment or a semicircle having a diameter not less than the diameter of the casing of the heat exchange section.

 The dimensions and details of the left chambers of the pipe and annular media are unified in size with the corresponding right chambers of the pipe and annular medium.

 The tube sheets and chamber flanges are rectangular in shape and secured autonomously by means of studs with locking devices to the peripheral sections of the annular chamber flanges.

 The grooves made on both surfaces of the tube sheets are arranged symmetrically relative to the tube sheets, while the partitions in the cross section are stepped in shape with wider sections adjacent to the pipe sheets. The collector chambers of the pipe medium have hinges fixed to the flanges of the chambers of the pipe and annular media.

 In FIG. 1 shows a general view of a heat exchanger; in FIG. 2 is a side view; in FIG. 3 is a plan view.

 The heat exchanger consists of identical heat-exchange sections 1, each of which is made in the form of bundles of heat-exchange tubes 3 enclosed in a cylindrical casing 2, fixed at both ends in two tube sheets 4 common to all sections and connected to common collector chambers of the pipe medium 5 and the annular medium 6, consisting of a shell 7 in the form of a section of a cylinder with a cross-section in the form of a segment or a semicircle having a diameter not less than the diameter of the casing 2 of section 1, fastened to a rectangular flange 10, which is connected to the tube sheet d 4, perpendicular to which in chambers 5 and 6 are partitions 8, forming compartments 9, communicating adjacent sections 1.

 In order to reduce the distance between the sections of the partition 8 have a cross-sectional step shape with a wider section adjacent to the tube sheet 4, on both surfaces of which grooves are made, located symmetrically relative to the tube sheet.

 The dimensions and details of the left chambers 5, 6 - flanges 10, partitions 8, shells 7 are unified in size with the corresponding right chambers of the pipe and annular media. The tube sheet 4 and the flanges 10 of the chambers 5 and 6 are rectangular in shape and are independently mounted by means of studs with locking devices to the peripheral sections of the flanges of the chambers of the annular medium. The locking devices exclude the weakening of the fastening of the tube sheets during the dismantling of the collector chambers of the tube medium.

 The heat exchanger may have hinges 11 fixed to the flanges of the chambers of the pipe and annular media, which reduces the complexity of dismantling during cleaning and repair. The nozzles of the inlet 12 and outlet 13 of the pipe medium are located on the chambers 5 coaxially to the peripheral heat exchange sections 1, on which there are nozzles 14, 15 of the inlet and outlet of the annular medium.

 In the process of operation of the hot water heat exchanger, the medium of the pipe space sequentially passes through the pipe 12, the collector chamber 5, the pipe space of the peripheral section 1, the opposite chamber 5 and so on, and leaves the heat exchanger through the pipe 13 to the heat supply system.

 Through the pipe 14, the annular medium enters the heat exchanger and moves countercurrently with respect to the pipe medium, passing sequentially through the annular space of the peripheral and subsequent sections 4 of the collector chambers 6, and enters the return pipe of the heat supply system through the nozzle 15.

 Moreover, in comparison with the known device, the use of the heating surface is increased due to the absence of intermediate inlet and outlet pipes annular. The area occupied by the heat exchanger is reduced by approximately 3 times. Along with this, the manufacturability of manufacturing heat exchangers is increased due to the unification of the main parts. The decrease in specific metal consumption is more than 30%.

 The heat exchanger can be used as a unified module block, as a result of which there is no need for the production of heat exchangers with different diameters and number of sections.

 A thermal installation can be composed of several described heat exchangers (modules) connected in series or parallel to each other, which makes it possible to reduce the cost of production, installation and operation of plants.

Sources of information
1. The patent of Germany N 2640728, cl. F 28 D 7/00, 1980.

 2. USSR author's certificate N 1749682, cl. F 28 D 7/00, 1992.

Claims (4)

 1. A heat exchanger containing identical heat-exchange sections in the form of tube bundles enclosed in cylindrical casings, which are connected to common collector chambers of the tube and annular media, made in the form of shells with flanges, fastened to the tube sheets located between the chambers, the walls forming the compartments perpendicular to them communicating adjacent sections, characterized in that the outer parts of the shells of the chambers of the pipe and annular medium are made in the form of a section of the cylinder with a cross section in the form of segments one or a semicircle having a diameter not less than the diameter of the casing of the heat exchange section.  2. The heat exchanger according to claim 1, characterized in that the tube sheets and chamber flanges are rectangular in shape and are independently mounted by means of studs with locking devices to the peripheral sections of the annular chamber flanges.  3. The heat exchanger according to claim 1, characterized in that the grooves made on both surfaces of the tube sheets for the partitions of the collector chambers are arranged symmetrically with respect to the tube sheets, and the partitions in the cross section are stepped in shape with wider sections adjacent to the tube sheets.  4. The heat exchanger according to claim 1, characterized in that the collector chambers of the pipe medium have hinges fixed to the flanges of the chambers of the pipe and annular media.

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