RU2126112C1 - Boiler - Google Patents

Abstract

FIELD: water heating systems and hot water supply systems. SUBSTANCE: boiler consists of similar finned metal members 1 with flanges 2 between which gaskets 3 are laid. Finned metal members 1 are interconnected together and are connected with circulating water header 5 and heating water header 6 by means of bolts 4. EFFECT: simplified construction and increased heating surface. 3 dwg

Description

 The invention relates to water heating systems and hot water supply and can be used to heat the internal volumes of buildings.

образной формы и расположены в шахматном порядке относительно тепловых труб смежного ряда, а зоны конденсации каждого ряда тепловых труб по длине газохода смещены относительно одна другой с чередованием через одну (см. а.с. СССР N 1504466, кл. F 22 B 21/20).A known recovery boiler containing heat pipes, the evaporation and condensation zones of which are installed in transverse rows, respectively, in the convection chamber of the gas duct and beyond, and the heat pipes are made

shaped and arranged in a checkerboard pattern relative to the heat pipes of the adjacent row, and the condensation zones of each row of heat pipes along the length of the duct are shifted relative to each other with alternating through one (see AS USSR N 1504466, class F 22 B 21/20 )

 The disadvantage of this boiler is the design complexity, large volume and weight.

 Also known are boiler plants, consisting of 2 prefabricated sections, combined by collectors for return and heating water (AS USSR N 21142).

 The disadvantage of these boiler plants is the design complexity.

 The closest in technical essence and the achieved positive effect is a boiler containing prefabricated cast-iron sections consisting of front, middle and rear elements connected with nipples, and the sections are drawn along the length of the required heating surface and connected by collectors of return and heating water (a. S. USSR N 142398).

 The disadvantage of this boiler is the design complexity, large volume and weight, small heating surface.

 The purpose of the invention is to simplify the design, reduce volume and weight, increase the heating surface, expand the range of the boiler in power and increase the efficiency.

 The goal is achieved in that the boiler contains prefabricated cast-iron sections that are dialed along the length of the required heating surface and are connected by collectors of return and heating water, sections are made of identical ribbed metal elements connected to each other and to collectors of return and heating water by flanges and form a single spatial design defined by the collectors. Finned metal identical elements connected to each other and to the collectors of the return and heating water by flanges increase the heating surface by a multiple of the number of connected elements along the length.

 The number of elements, the spatial configuration of the boiler is determined by the configuration of the steel collectors of the return and heating water and allows you to repeatedly expand the range of the boiler in power, while the entire surface of the ribbed elements is involved in heat transfer, is actively washed by flue gases.

 In FIG. 1 is a side elevational view of the boiler; FIG. 2 is a front view (without skin), in FIG. Figure 3 shows a diagram of the connection of ribbed metal identical elements with steel collectors of return and heating water and with each other.

 The boiler consists of identical finned metal elements 1 having flanges 2 between which gaskets are located 3. Equal ribbed metallic elements 1 are connected by bolts 4 to each other and to collectors 5 of return water and 6 heating water. Ribbed metal identical elements 1 are washed by the flue gases of a burner located in region 7.

 The boiler operates as follows.

 The flue gases from the burner located in region 7, rising up and passing along the boiler, wash the ribs of the metal elements 1, interconnected by bolts 4, flanges 2 and gaskets 3 between them with steel collectors 5 of return water and 6 heating water, and transfer heat to the heat carrier circulating inside the ribbed metal element 1. Hot water is consumed through the heating water collector 6 for consumption into the heating system. Return water through the collector 5 enters the boiler for subsequent heating.

 The length of the boiler can be increased by connecting many rows of ribbed metal identical elements 1, while the steel collectors 5 of the return water and 6 of the heating water are not changed. When building sharply increases the heat transfer surface. The shape and size of the steel collectors 5 and 6 determine the spatial configuration of the boiler, taking into account the purpose, type of fuel used, heating surface, rated power. At the same time, steel collectors 5 of return water and 6 heating water connected to identical ribbed metal elements 1 using flanges 2 and bolts 4 in a single structure form a rigid frame on which all boiler elements are mounted - insulation, lining, burners, which is very practical and comfortable.

 The advantages of this invention compared to the prototype: the presence of one type of ribbed metal of the same element and steel pipes solves multi-purpose problems in the design of boilers for various purposes, power; the volume and weight of the boiler are reduced; the boiler efficiency is increased by 12% - 20%, due to an increase in the heat transfer surface; fuel economy.

Claims (1)

 A boiler containing prefabricated cast-iron sections that are dialed in length to the required surface and are connected by collectors of return and heating water, characterized in that the sections are made of identical ribbed cast-iron pipes connected to each other and to collectors of return and heating water by flanges, and form a single spatial design defined by the collectors.

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