RU122155U1 - WATER BOILER - Google Patents

Abstract

 A hot water boiler containing a furnace part, the combustion chamber of which is formed by a furnace tent from side and ceiling pipes, a grate and a front panel, and a convection unit made in the form of horizontally arranged pipes separated by vertical partitions, characterized in that the side and ceiling pipes of the furnace tent are arranged horizontally, jumpers of metal plates are installed between the pipes, and vertical partitions are in the convection unit made in the form of a closed parallelepiped arranged longitudinally and divide it into a central and two side sections, the side sections have upper inlet channels which communicate with the combustion chamber, and the lower output channels associated with a lower central inlet section, and its upper outlet passage communicated with the atmosphere.

Description

The utility model relates to boiler building, and can be used in low-power heating boilers.

A well-known hot water boiler containing a combustion chamber formed by vertical and upper horizontal tubular screens and a convective unit in the form of horizontally arranged coils connected with the lower and upper horizontal collectors connected to the supply and removal lines of the coolant (see description to the USSR AS No. 943493, claimed 23.05.80., According to CL F24H 1/24).

A disadvantage of the known boiler is its high temperature of the exhaust gases, due to the insignificant path of their passage along the heat exchange surface, which reduces the efficiency of the boiler.

The closest set of essential features to the claimed (prototype) is a hot water boiler containing a furnace part, the combustion chamber of which is formed by a furnace tent from side and ceiling pipes, a grate and a front panel, and a convection unit made in the form of horizontally arranged pipes separated by vertical partitions (see patent for utility model No. 32241, application form 09/05/2002, publ. 09/10/2003, according to class F24H 1/00).

The disadvantage of this boiler is also its high flue gas temperature, which reduces the efficiency of the boiler. In addition, the design of this boiler does not exclude the uneven distribution of heat load on the surface of heat transfer and boiling of the coolant.

The objective of this utility model is to create a hot water boiler that would significantly reduce the temperature of the flue gases by increasing the path of their passage along the heat exchange surface, evenly distribute the heat load in the convective part of the boiler and increase its efficiency.

The problem is solved in that in a boiler containing a furnace part, the combustion chamber of which is formed by a furnace tent from side and ceiling pipes, a grate and a front panel, and a convection unit made in the form of horizontally arranged pipes separated by vertical partitions, according to a utility model , the side and ceiling pipes of the furnace tent are located horizontally, jumpers made of metal plates are installed between the pipes, and in the convection unit made in the form of a closed about the parallelepiped, the vertical partitions are located longitudinally and divide it into two side and central sections, the side sections have upper input channels that are in communication with the combustion chamber, and lower output channels associated with the lower input channels of the central section, while its upper output channel is communicated with the atmosphere.

A comparative analysis of the inventive hot water boiler with the known allows us to conclude that the proposed combination of essential features is new and industrially applicable.

In FIG. - 1 shows a hot water boiler;

in FIG. - 2 schematically shows a cross section of the boiler.

The hot water boiler contains a furnace part with a combustion chamber and a convection unit. The combustion chamber is formed by the furnace tent from the side 1 and ceiling 2 pipes, the grate 3 and the front panel 4. The side 1 and ceiling 2 pipes of the furnace tent are located horizontally, and jumpers 5 from metal plates are welded between the pipes 1, 2. The convective block is made in the form of a closed parallelepiped and has vertical partitions 6, 7, which are located along the longitudinal axis of the convective block, and divide it into two lateral 8 and central 9 sections. The lateral 8 sections have upper input channels 10, which are in communication with the combustion chamber (not shown in the drawing), and lower output channels 11, connected to the lower input channels 12 of the central section, while its upper output channel 13 is in communication with the atmosphere.

The hot water boiler operates as follows. When burning fuel, for example, coal in the combustion chamber, the flue gases heat horizontally located side 1 and ceiling 2 pipes, as well as jumpers 5 from metal plates welded between pipes 1 and 2, which significantly reduces the heat loss of the combustion chamber. Further, the flue gas stream is divided into two flows, which through the upper input 10 channels enter the lateral 8 sections of the convection unit and begin to move down. From the lateral 8 sections, through the lower outlet 11 channels, flue gas flows enter the lower inlet 12 channel of the central section, forming a single stream. The flow in the central 9 section moves up and out of the upper output channel 13.

The proposed hot water boiler can significantly reduce the temperature of the exhaust gases, by increasing the path of their passage along the heat exchange surface, evenly distribute the heat load in the convective part of the hot water boiler and increase its efficiency.

Claims (1)

A hot water boiler containing a furnace part, the combustion chamber of which is formed by a furnace tent from side and ceiling pipes, a grate and a front panel, and a convection unit made in the form of horizontally arranged pipes separated by vertical partitions, characterized in that the side and ceiling pipes of the furnace tent are arranged horizontally, jumpers of metal plates are installed between the pipes, and vertical partitions are in the convection unit made in the form of a closed parallelepiped arranged longitudinally and divide it into a central and two side sections, the side sections have upper inlet channels which communicate with the combustion chamber, and the lower output channels associated with a lower central inlet section, and its upper outlet passage communicated with the atmosphere.